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Project Management

Project Management
Adrienne Watt
BCCAMPUS
VICTORIA, B.C.

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Contents
Accessibility Statement vi
About the Book viii
Introduction x
Preface xi
1. Project Management: Past and Present 1
2. Project Management Overview 11
3. The Project Life Cycle (Phases) 24
4. Framework for Project Management 27
5. Stakeholder Management 42
6. Culture and Project Management 54
7. Project Initiation 57
8. Overview of Project Planning 73
9. Scope Planning 76
10. Project Schedule Planning 91
11. Resource Planning 105
12. Budget Planning 132
13. Procurement Management 147
14. Quality Planning 158
15. Communication Planning 170
16. Risk Management Planning 176
17. Project Implementation Overview 187
18. Project Completion 189
19. Celebrate! 194
Appendix 1: Project Management PowerPoints 195
Appendix 2: Chapter Questions 196
Appendix 3: Chapter Audio Files 204
About the Author 205
Versioning History 206
List of Links by Chapter for Print 208

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About the Book
About the Book
Project Management by Adrienne Watt and published by BCcampus Open Education is a remix and
adaptation of the following works:
• 100 Percent Rule by Pabipedia licensed under © CC BY-SA (Attribution-ShareAlike).
• Communication Plans by Inte6160 Wiki licensed under Creative Commons Attribution 3.0
Licence.
• Decision Matrix Method and Project Charter by Wikipedia the Free Encyclopedia licensed
under CC BY-SA (Attribution-ShareAlike).
• Gantt Chart by Wikipedia licensed under CC BY-SA (Attribution-ShareAlike).
• How to Build Relationships with Stakeholders by Erin Palmer licensed under CC BY (Attri-
bution).
• Planning a Project by OpenLearn Labspace licensed under Creative Commons Attribution
3.0 Licence.
• Project Decelerators – Lack of Stakeholder Support by Jose Solera licensed under CC BY
(Attribution).
• Project Management by Merrie Barron and Andrew Barron licensed under CC BY (Attribu-
tion).
• Project Management for Instructional Designers by Amado, M., Ashton, K., Ashton, S.,
Bostwick, J., Clements, G., Drysdale, J., Francis, J., Harrison, B., Nan, V., Nisse, A., Randall,
D., Rino, J., Robinson, J., Snyder, A., Wiley, D., & Anonymous licensed under Creative
Commons Attribution 3.0 Licence.
• Project Management for Skills for All Careers by Project Management Open Resources and
TAP-a-PM licensed under Creative Commons Attribution 3.0 Licence.
• Project Management from Simple to Complex by Russel Darnall, John Preston, Eastern
Michigan University licensed under Creative Commons Attribution 3.0 Licence.
• Project Management/PMBOK/Human Resources Management and Development Coopera-
tion Handbook/How do we manage the human resources of programmes and projects?/Man-
age the Project Team by Wikibooks licensed under CC BY-SA (Attribution-ShareAlike).
• Project Management/PMBOK/Scope Management and Development Cooperation Handbook/
Designing and Executing Projects/Detailed Planning or design stage by Wikibooks licensed
under © CC BY (Attribution).
• Resource Management and Resource Leveling by Wikipedia licensed under CC BY-SA
(Attribution-ShareAlike).
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Introduction
People have been undertaking projects since the earliest days of organized human activity. The hunting
parties of our prehistoric ancestors were projects. Large complex projects such as the pyramids and the
Great Wall of China were also projects. Even something as simple as creating a dinner is considered a
project. We use the term “project” frequently in our daily conversations. This book covers the basics of
project management. This includes the process of initiation, planning, execution, control, and closeout
that all projects share.
x

Preface
The primary purpose of this text is to provide an open source textbook that covers most project manage-
ment courses. The material in the textbook was obtained from a variety of sources. All the sources are
found in the reference section at the end of each chapter. I expect, with time, the book will grow with
more information and more examples.
I welcome any feedback that would improve the book. If you would like to add a section to the book,
please let me know.
xi

1. Project Management: Past and Present
Careers Using Project Management Skills
Skills learned by your exposure to studying project management can be used in most careers as well as
in your daily life. Strong planning skills, good communication, ability to implement a project to deliver
the product or service while also monitoring for risks and managing the resources will provide an edge
toward your success. Project managers can be seen in many industry sectors including agriculture and
natural resources; arts, media, and entertainment; building trades and construction; energy and utilities;
engineering and design; fashion and interiors; finance and business; health and human services; hos-
pitality, tourism, and recreation; manufacturing and product development; public and private education
services; public services; retail and wholesale trade; transportation; and information technology.
Below we explore various careers and some of the ways in which project management knowledge can
be leveraged.
Business Owners
Business owners definitely need to have some project management skills. With all successful businesses,
the product or service being delivered to the customer meets their needs in many ways. The product or
service is of the quality desired, the costs are aligned with what the consumer expected, and the timeli-
ness of the product or service meets the deadline for the buyer of that item.
The pillars of project management are delivering a product/service within schedule, cost, scope, and
quality requirements. Business owners need planning, organizing, and scoping skills and the ability to
analyze, communicate, budget, staff, equip, implement, and deliver.
Understanding the finances, operations, and expenses of the business are among the skills that project
managers learn and practice. Some businesses may focus more on accounting, providing financial
advice, sales, training, public relations, and actuary or logistician roles. Business owners may own a
travel agency or provide hospitality. Business owners could be managing a storefront or a location in
their town’s marketplace.
Example: Restaurant Owner/Manager
Restaurant managers are responsible for the daily operations of a restaurant that prepares and serves
meals and beverages to customers. Strong planning skills, especially coordinating with the various
departments (kitchen, dining room, banquet operations, food service managers, vendors providing the
supplies) ensure that customers are satisfied with their dining experience. Managers’ abilities to recruit
and retain employees, and monitor employee performance and training ensure quality with cost contain-
ment. Scheduling in many aspects, not only the staff but also the timing of the food service deliveries, is
critical in meeting customer expectations.
Risk management is essential to ensure food safety and quality. Managers monitor orders in the
kitchen to determine where delays may occur, and they work with the chef to prevent these delays. Legal
compliance is essential in order for the restaurant to stay open, so restaurant managers direct the clean-
1

ing of the dining areas and the washing of tableware, kitchen utensils, and equipment. They ensure the
safety standards and legality, especially in serving alcohol. Sensitivity and strong communication skills
are needed when customers have complaints or employees feel pressured because more customers arrive
than predicted.
Financial knowledge is needed for the soundness of running the restaurant, especially tracking special
projects, events, and costs for the various menu selections. Catering events smoothly can be an outcome
of using project plans and the philosophy of project management. The restaurant manager or the execu-
tive chef analyzes the recipes to determine food, labour, and overhead costs; determines the portion size
and nutritional content of each serving; and assigns prices to various menu items, so that supplies can be
ordered and received in time.
Planning is the key for successful implementation. Managers or executive chefs need to estimate food
needs, place orders with distributors, and schedule the delivery of fresh food and supplies. They also
plan for routine services (equipment maintenance, pest control, waste removal) and deliveries, including
linen services or the heavy cleaning of dining rooms or kitchen equipment, to occur during slow times
or when the dining room is closed. A successful restaurant relies on many skills that the project manage-
ment profession emphasizes.
Outsourcing Services
Figure 1.1: Sample status chart, which is typical with the use of a red-yellow-green
Many businesses explore outsourcing for certain services. Below is a sample status and project plan that
reflects the various tasks needed for a project. A review of finances, the importance of communicating
to stakeholders, and the importance of time, cost, schedule, scope, and quality are reflected. Many com-
panies may use these steps in their business. These plans show the need for the entire team to review the
various proposals to choose the best plan. Figure 1.1 represents a sample project status report.
1. Project Management: Past and Present 2

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Example: Construction Managers
Construction managers plan, direct, coordinate, and budget a wide variety of residential, commercial,
and industrial construction projects including homes, stores, offices, roads, bridges, wastewater treat-
ment plants, schools, and hospitals. Strong scheduling skills are essential for this role. Communication
skills are often used in coordinating design and construction processes, teams executing the work, and
governance of special trades (carpentry, plumbing, electrical wiring) as well as government representa-
tives for the permit processes.
A construction manager may be called a project manager or project engineer. The construction man-
ager ensures that the project is completed on time and within budget while meeting quality specifica-
tions and codes and maintaining a safe work environment. These managers create project plans in which
they divide all required construction site activities into logical steps, estimating and budgeting the time
required to meet established deadlines, usually utilizing sophisticated scheduling and cost-estimating
software. Many use software packages such as Microsoft Project® or Procure® or online tools like Base-
Camp®. Most construction projects rely on spreadsheets for project management. Procurement skills
used in this field include acquiring the bills for material, lumber for the house being built, and more.
Construction managers also coordinate labor, determining the needs and overseeing their performance,
ensuring that all work is completed on schedule.
Values including sustainability, reuse, LEED-certified building, use of green energy, and various
energy efficiencies are being incorporated into today’s projects with an eye to the future. Jennifer Rus-
sell, spoke about project management and global sustainability” at the 2011 Silicon Valley Project Man-
agement Institute (PMI) conference. She informed the attendees of the financial, environmental, and
social areas in expanding the vision of project management with the slide in Figure 1.2. These values are
part of the PMI’s code of ethics and professionalism. By adhering to this code, project managers include
in their decisions the best interests of society, the safety of the public, and enhancement of the environ-
ment.
3 2nd Edition

Figure 1.2: In addition to considering the cost, scope, and schedule of a project, a project manager should work to
ensure the project is socially responsible, environmentally sound, and economically viable.
Creative Services
Creative service careers include graphic artists, curators, video editors, gaming managers, multimedia
artists, media producers, technical writers, interpreters, and translators. These positions use project man-
agement skills, especially in handling the delivery channel and meeting clients’ requirements.
Let us look at one example, graphic artists, to understand and identify some of the project management
skills that aid in this career.
Example: Graphic Artists
Graphic artists plan, analyze, and create visual solutions to communication problems. They use many
skills found in project management, especially communications. They work to achieve the most effective
way to get messages across in print and electronic media. They emphasize their messages using colour,
type, illustration, photography, animation, and various print and layout techniques. Results can be seen
in magazines, newspapers, journals, corporate reports, and other publications. Other deliverables from
graphic artists using project management skills include promotional displays, packaging, and market-
ing brochures supporting products and services, logos, and signage. In addition to print media, graphic
artists create materials for the web, TV, movies, and mobile device apps.
Initiation in project management can be seen in developing a new design: determining the needs of
the client, the message the design should portray, and its appeal to customers or users. Graphic designers
consider cognitive, cultural, physical, and social factors in planning and executing designs for the target
1. Project Management: Past and Present 4

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audience, very similar to some of the dynamics a project manager considers in communicating with var-
ious project stakeholders. Designers may gather relevant information by meeting with clients, creative
staff, or art directors; brainstorming with others within their firm or professional association; and per-
forming their own research to ensure that their results have high quality and they can manage risks.
Graphic designers may supervise assistants who follow instructions to complete parts of the design
process. Therefore scheduling, resource planning, and cost monitoring are pillars of project management
seen in this industry. These artists use computer and communications equipment to meet their clients’
needs and business requirements in a timely and cost-efficient manner.
Educators
“Educator” is a broad term that can describe a career in teaching, maybe being a lecturer, a professor, a
tutor, or a home-schooler. Other educators include gurus, mullahs, pastors, rabbis, and priests. Instruc-
tors also provide vocational training or teach skills like learning how to drive a car or use a computer.
Educators provide motivation to learn a new language or showcase new products and services. Educators
use project management skills including planning and communication.
Let us look at teachers, since we all have had teachers, and see if we can recognize the project man-
agement skills that are demonstrated in this profession.
Example: Teachers
Some teachers foster the intellectual and social development of children during their formative years;
other teachers provide knowledge, career skill sets, and guidance to adults. Project management skills
that teachers exhibit include acting as facilitators or coaches and communicating in the classroom and
in individual instruction. Project managers plan and evaluate various aspects of a project; teachers plan,
evaluate, and assign lessons; implement these plans; and monitor each student’s progress similar to the
way a project manager monitors and delivers goods or services. Teachers use their people skills to man-
age students, parents, and administrators. The soft skills that project managers exercise can be seen in
teachers who encourage collaboration in solving problems by having students work in groups to discuss
and solve problems as a team.
Project managers may work in a variety of fields with a broad assortment of people, similar to teachers
who work with students from varied ethnic, racial, and religious backgrounds. These teachers must
have awareness and understanding of different cultures.
Teachers in some schools may be involved in making decisions regarding the budget, personnel, text-
books, curriculum design, and teaching methods, demonstrating skills that a project manager would pos-
sess such as financial management and decision making.
Engineers
Engineers apply the principles of science and mathematics to develop economical solutions to technical
problems. As a project cycles from an idea in the project charter to the implementation and delivery of
a product or service, engineers link scientific discoveries to commercial applications that meet societal
and consumer needs.
Engineers use many project management skills, especially when they must specify functional require-
ments. They demonstrate attention to quality as they evaluate a design’s overall effectiveness, cost, reli-
5 2nd Edition

ability, and safety similar to the project manager reviewing the criteria for the customer’s acceptance of
delivery of the product or service.
Estimation skills in project management are used in engineering. Engineers are asked many times to
provide an estimate of time and cost required to complete projects.
Health Care
There are many jobs and careers in health care that use project management skills. Occupations in the
field of health care vary widely, such as athletic trainer, dental hygienist, massage therapist, occupa-
tional therapist, optometrist, nurse, physician, physician assistant, and X-ray technician. These individ-
uals actively apply risk management in providing health care delivery of service to their clients, ensuring
that they do not injure the person they are caring for. Note: There is a section on nursing later in this
chapter.
Many of you may have had a fall while you were growing up, and needed an X-ray to determine if
you had a fracture or merely a sprain. Let us look at this career as an example of a health care profes-
sional using project management skills.
Example: Radiology Technologists
Radiology technologists and technicians perform diagnostic imaging examinations like X-rays, com-
puted tomography (CT), magnetic resonance imaging (MRI), and mammography. They could also be
called radiographers, because they produce X-ray films (radiographs) of parts of the human body for use
in diagnosing medical problems.
Project management skills, especially people skills and strong communication, are demonstrated
when they prepare patients for radiologic examinations by explaining the procedure and what position
the patient needs to be in, so that the parts of the body can be appropriately radiographed. Risk man-
agement is demonstrated when these professionals work to prevent unnecessary exposure to radiation by
surrounding the exposed area with radiation protection devices, such as lead shields, or limiting the size
of the X-ray beam. To ensure quality results, the health technician monitors the radiograph and sets con-
trols on the X-ray machine to produce radiographs of the appropriate density, detail, and contrast.
Safety and regulations concerning the use of radiation to protect themselves, their patients, and their
coworkers from unnecessary exposure is tracked in an efficient manner and reported as a control to
ensure compliance. Project management skills are also used in preparing work schedules, evaluating
equipment for purchase, or managing a radiology department.
Some radiological technologists specialize in CT scans; as CT technologists they too use project man-
agement skills. CT uses ionizing radiation to produce a substantial number of cross-sectional X-rays of
an area of the body. Therefore, it requires the same precautionary measures that are used with X-rays,
hence the need for risk management and monitoring for exposure.
Teamwork, not only with the patient that the radiological technologist supports and the doctor who
ordered the request, but also with other health care providers, relies on strong communication, quality,
work done in a timely manner, and wise use of hospital resources. This all boils down to ensuring that
the three elements of the project management triangle of cost, schedule, and scope with quality delivered
remain the essentials that provide a cornerstone to project management and the skills needed to obtain
the objective.
1. Project Management: Past and Present 6

Example: Nurses
Nurses treat and educate patients and their families and the public about various medical conditions and
provide advice and emotional support. Nurses establish a care plan for their patients that include activ-
ities like scheduling the administration and discontinuation of medications (e.g., intravenous (IV) lines
for fluid, medication, blood, and blood products) and application of therapies and treatments. Communi-
cation with the patient, their family, physicians and other health care clinicians may be done in person or
via technology. Telehealth allows nurses to provide care and advice through electronic communications
media including videoconferencing, the Internet, or telephone.
Risk management is very important for a nurse, with some cases having a life or death consequence.
Nurses monitor pain management and vital signs and provide status reports to physicians to help in
responding to the health care needs of the patient.
The nursing field varies. Some nurses work in infection control. They identify, track, and control
infectious outbreaks in health care facilities and create programs for outbreak prevention and response
to biological terrorism. Others are educators who plan, develop, execute, and evaluate educational pro-
grams and curricula for the professional development of students and graduate nurses. Nurses may
use project management skills while conducting health care consultations, advising on public policy,
researching in the field, or providing sales support of a product or service.
Paralegal
Attorneys assume the ultimate responsibility for legal work but they often obtain assistance. Paralegals
assume this role in law firms and perform many tasks to aid the legal profession. However, they are
explicitly prohibited from carrying out duties considered to be the practice of law (e.g., giving legal
advice, setting legal fees, presenting court cases).
Project management skills such as planning are used in helping lawyers prepare for closings, hearings,
trials, and corporate meetings. Communication skills are used in preparing written reports that help attor-
neys determine how cases should be handled or drafts for actions such as pleading, filing motions, and
obtaining affidavits.
Monitoring skills aid paralegals who may track files of important case documents, working on risk
containment related to filing dates and responses to the court. Procurement skills, which a project man-
ager uses, can also be seen from a paralegal perspective in negotiating terms of hiring expert witnesses
as well as other services such as acquiring services from process servers.
Financial skills may be used as well, such as assisting in preparing tax returns, establishing trust funds,
and planning estates or maintaining financial office records at the law firm.
Government, litigation, personal injury, corporate law, criminal law, employee benefits, intellectual
property, labour law, bankruptcy, immigration, family law, and real estate are some of the many different
law practices where a paralegal professional may use project management skills.
Software developer
Computer software developers and computer programmers design and develop software. They apply the
principles of computer science and mathematics to create, test, and evaluate software applications and
systems that make computers come alive. Software is developed in many kinds of projects: computer
games, business applications, operating systems, network control systems, and more. Software devel-
opers us project management skills to develop the requirements for the software, identify and track the
7 2nd Edition

product development tasks, communicate within the development team and with clients, test cases, and
manage quality, the schedule, and resources (staff, equipment, labs, and more).
Science Technicians
Science technicians use principles and theories of science and mathematics to assist in research and
development and help invent and improve products and processes. In their jobs, they are more practically
oriented than scientists. Planning skills project managers use can be seen as science technicians set
up, operate, and maintain labouratory instruments; monitor experiments; and observe, calculate, and
record results. Quality is a factor here as it is in project management; science technicians must ensure
that processes are performed correctly, with proper proportions of ingredients, for purity or for strength
and durability.
There are different fields in which science technicians can apply project management skills. Agricul-
tural and food science technicians test food and other agricultural products and are involved in food,
fibre, and animal research, production, and processing. Control and risk management are important here
in executing the tests and experiments, for example, to improve the yield and quality of crops, or the
resistance of plants and animals to disease, insects, or other hazards. Quality factors are paramount when
food science technicians conduct tests on food additives and preservatives to ensure compliance with
government regulations regarding colour, texture, and nutrients.
Biological technicians work with biologists studying living organisms. Many assist scientists who
conduct medical research or who work in pharmaceutical companies to help develop and manufacture
medicines. Skills in scheduling, especially in incubation periods for the study of the impact on cells,
could impact projects, such as exploring and isolating variables for research in living organisms and
infectious agents. Biotechnology technicians apply knowledge and execution skills and techniques
gained from basic research, including gene splicing and recombinant DNA, to product development.
Project management skills are used in collaboration and communication among team members to record
and understand the results and progress toward a cure or product.
Other kinds of technicians are chemical technicians who may work in labouratories or factories, using
monitoring and control skills in the way they collect and analyze samples. Again, quality assurance is
an important factor for most process technicians’ work in manufacturing, testing packaging for design,
ensuring integrity of materials, and verifying environmental acceptability.
Technicians use a project management skill set to assist in their initiation, planning, and executing
tasks, while managing risks with some measure of reporting to determine if their objectives satisfy the
constraints of cost, schedule, resource, and quality standards set.
History
Could the Great Wall of China, the pyramids, or Stonehenge have been built without project manage-
ment? It is possible to say that the concept of project management has been around since the beginning
of history. It has enabled leaders to plan bold and massive projects and manage funding, materials, and
labour within a designated time frame.
In late 19th century, in the United States, large-scale government projects were the impetus for making
important decisions that became the basis for project management methodology such as the transcon-
tinental railroad, which began construction in the 1860s. Suddenly, business leaders found themselves
1. Project Management: Past and Present 8

faced with the daunting task of organizing the manual labour of thousands of workers and the processing
and assembly of unprecedented quantities of raw material.
Figure 1.3: MindView Gantt Chart.
Henry Gantt, studied in great detail the order of operations in work and is most famous for developing
the Gantt chart in the 1910s. A Gantt chart (Figure 1.3) is a popular type of bar chart that illustrates a
project schedule and has become a common technique for representing the phases and activities of a pro-
ject so they can be understood by a wide audience. Although now a common charting technique, Gantt
charts were considered revolutionary at the time they were introduced. Gantt charts were employed on
major infrastructure projects in the United States including the Hoover Dam and the interstate highway
system and are still accepted today as important tools in project management.
By the mid-20th century, projects were managed on an ad hoc basis using mostly Gantt charts and
informal techniques and tools. During that time, the Manhattan Project was initiated and its complexity
was only possible because of project management methods. The Manhattan Project was the code name
given to the Allied effort to develop the first nuclear weapons during World War II. It involved over
30 different project sites in the United States and Canada, and thousands of personnel from the United
States, Canada, and the U.K. Born out of a small research program that began in 1939, the Manhattan
Project would eventually employ 130,000 people, cost a total of nearly US$2 billion, and result in the
creation of multiple production and research sites operated in secret. The project succeeded in develop-
ing and detonating three nuclear weapons in 1945.
The 1950s marked the beginning of the modern project management era. Two mathematical project-
scheduling models were developed.
The program evaluation and review technique (PERT) was developed by Booz-Allen and Hamilton
as part of the United States Navy’s Polaris missile submarine program. PERT is basically a method for
analyzing the tasks involved in completing a project, especially the time needed to complete each task,
the dependencies among tasks, and the minimum time needed to complete the total project (Figure 1.4).
The critical path method (CPM) was developed in a joint venture by DuPont Corporation and Rem-
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ington Rand Corporation for managing plant maintenance projects. The critical path determines the float,
or schedule flexibility, for each activity by calculating the earliest start date, earliest finish date, latest
start date, and latest finish date for each activity. The critical path is generally the longest full path on the
project. Any activity with a float time that equals zero is considered a critical path task. CPM can help
you figure out how long your complex project will take to complete and which activities are critical,
meaning they have to be done on time or else the whole project will take longer. These mathematical
techniques quickly spread into many private enterprises.
Figure 1.4: Pert Chart
Project management in its present form began to take root a few decades ago. In the early 1960s, indus-
trial and business organizations began to understand the benefits of organizing work around projects.
They understood the critical need to communicate and integrate work across multiple departments and
professions.
Text Attributions
This chapter of Project Management is a derivative and remix of the following sources:
• Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution).
• Project Management for Skills for All Careers by Project Management Open Resources and
TAP-a-PM. © Creative Commons Attribution 3.0 Licence.
Media Attributions
• Sourcing initiative status report by Maura Irene Jones in Project Management Skills for All
Careers © CC BY (Attribution)
• Project Management Triange by Jennifer Russell © CC BY (Attribution)
• Mindview Gantt Chart by Matchware Inc (MindView) © CC BY-SA (Attribution Share-
Alike)
• Pert Chart (Colored) by Jeremykemp adapted by Rehua © Public Domain
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2. Project Management Overview
The starting point in discussing how projects should be properly managed is to first understand what a
project is and, just as importantly, what it is not.
People have been undertaking projects since the earliest days of organized human activity. The hunt-
ing parties of our prehistoric ancestors were projects, for example; they were temporary undertakings
directed at the goal of obtaining meat for the community. Large complex projects have also been with
us for a long time. The pyramids and the Great Wall of China were in their day of roughly the same
dimensions as the Apollo project to send men to the moon. We use the term “project” frequently in our
daily conversations. A husband, for example may tell his wife, “My main project for this weekend is to
straighten out the garage.” Going hunting, building pyramids, and fixing faucets all share certain fea-
tures that make them projects.
Project Attributes
A project has distinctive attributes that distinguish it from ongoing work or business operations. Projects
are temporary in nature. They are not an everyday business process and have definitive start dates and
end dates. This characteristic is important because a large part of the project effort is dedicated to ensur-
ing that the project is completed at the appointed time. To do this, schedules are created showing when
tasks should begin and end. Projects can last minutes, hours, days, weeks, months, or years.
Projects exist to bring about a product or service that hasn’t existed before. In this sense, a project is
unique. Unique means that this is new; this has never been done before. Maybe it’s been done in a very
similar fashion before but never exactly in this way. For example, Ford Motor Company is in the busi-
ness of designing and assembling cars. Each model that Ford designs and produces can be considered
a project. The models differ from each other in their features and are marketed to people with various
needs. An SUV serves a different purpose and clientele than a luxury car. The design and marketing of
these two models are unique projects. However, the actual assembly of the cars is considered an opera-
tion (i.e., a repetitive process that is followed for most makes and models).
In contrast with projects, operations are ongoing and repetitive. They involve work that is continuous
without an ending date and with the same processes repeated to produce the same results. The purpose
of operations is to keep the organization functioning while the purpose of a project is to meet its goals
and conclude. Therefore, operations are ongoing while projects are unique and temporary.
A project is completed when its goals and objectives are accomplished. It is these goals that drive the
project, and all the planning and implementation efforts undertaken to achieve them. Sometimes projects
end when it is determined that the goals and objectives cannot be accomplished or when the product or
service of the project is no longer needed and the project is cancelled.
Definition of a Project
There are many written definitions of a project. All of them contain the key elements described above.
For those looking for a formal definition of a project, the Project Management Institute (PMI) defines a
11

project as a temporary endeavor undertaken to create a unique product, service, or result. The temporary
nature of projects indicates a definite beginning and end. The end is reached when the project’s objec-
tives have been achieved or when the project is terminated because its objectives will not or cannot be
met, or when the need for the project no longer exists.
Project Characteristics
When considering whether or not you have a project on your hands, there are some things to keep in
mind. First, is it a project or an ongoing operation? Second, if it is a project, who are the stakeholders?
And third, what characteristics distinguish this endeavor as a project?
Projects have several characteristics:
• Projects are unique.
• Projects are temporary in nature and have a definite beginning and ending date.
• Projects are completed when the project goals are achieved or it’s determined the project is
no longer viable.
A successful project is one that meets or exceeds the expectations of the stakeholders.
Consider the following scenario: The vice-president (VP) of marketing approaches you with a fabu-
lous idea. (Obviously it must be “fabulous” because he thought of it.) He wants to set up kiosks in local
grocery stores as mini-offices. These offices will offer customers the ability to sign up for car and home
insurance services as well as make their bill payments. He believes that the exposure in grocery stores
will increase awareness of the company’s offerings. He told you that senior management has already
cleared the project, and he’ll dedicate as many resources to this as he can. He wants the new kiosks in
place in 12 selected stores in a major city by the end of the year. Finally, he has assigned you to head up
this project.
Your first question should be, “Is it a project?” This may seem elementary, but confusing projects with
ongoing operations happens often. Projects are temporary in nature, have definite start and end dates,
result in the creation of a unique product or service, and are completed when their goals and objectives
have been met and signed off by the stakeholders.
Using these criteria, let’s examine the assignment from the VP of marketing to determine if it is a pro-
ject:
• Is it unique? Yes, because the kiosks don’t exist in the local grocery stores. This is a new way
of offering the company’s services to its customer base. While the service the company is
offering isn’t new, the way it is presenting its services is.
• Does the product have a limited timeframe? Yes, the start date of this project is today, and the
end date is the end of next year. It is a temporary endeavor.
• Is there a way to determine when the project is completed? Yes, the kiosks will be installed
and the services will be offered from them. Once all the kiosks are installed and operating,
the project will come to a close.
• Is there a way to determine stakeholder satisfaction? Yes, the expectations of the stakeholders
will be documented in the form of requirements during the planning processes. These
requirements will be compared to the finished product to determine if it meets the expecta-
2. Project Management Overview 12

tions of the stakeholder.
If the answer is yes to all these questions, then we have a project.
The Process of Project Management
You’ve determined that you have a project. What now? The notes you scribbled down on the back of the
napkin at lunch are a start, but not exactly good project management practice. Too often, organizations
follow Nike’s advice when it comes to managing projects when they “just do it.” An assignment is made,
and the project team members jump directly into the development of the product or service requested.
In the end, the delivered product doesn’t meet the expectations of the customer. Unfortunately, many
projects follow this poorly constructed path, and that is a primary contributor to a large percentage of
projects not meeting their original objectives, as defined by performance, schedule, and budget.
In the United States, more than $250 billion is spent each year on information technology (IT) appli-
cation development in approximately 175,000 projects. The Standish Group (a Boston-based leader in
project and value performance research) released the summary version of their 2009 CHAOS Report
that tracks project failure rates across a broad range of companies and industries (Figure 2.1).
Figure 2.1: Summary of 2009 Standish Group CHAOS report.
Jim Johnson, chairman of the Standish Group, has stated that “this year’s results show a marked decrease
in project success rates, with 32% of all projects succeeding which are delivered on time, on budget, with
required features and functions, 44% were challenged-which are late, over budget, and/or with less than
the required features and functions and 24% failed which are cancelled prior to completion or delivered
and never used.”
When are companies going to stop wasting billions of dollars on failed projects? The vast majority of
this waste is completely avoidable: simply get the right business needs (requirements) understood early
in the process and ensure that project management techniques are applied and followed, and the project
activities are monitored.
Applying good project management discipline is the way to help reduce the risks. Having good project
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management skills does not completely eliminate problems, risks, or surprises. The value of good pro-
ject management is that you have standard processes in place to deal with all contingencies.
Project management is the application of knowledge, skills, tools, and techniques applied to project
activities in order to meet the project requirements. Project management is a process that includes plan-
ning, putting the project plan into action, and measuring progress and performance.
Managing a project includes identifying your project’s requirements and writing down what everyone
needs from the project. What are the objectives for your project? When everyone understands the goal,
it’s much easier to keep them all on the right path. Make sure you set goals that everyone agrees on to
avoid team conflicts later on. Understanding and addressing the needs of everyone affected by the pro-
ject means the end result of your project is far more likely to satisfy your stakeholders. Last but not least,
as project manager, you will also be balancing the many competing project constraints.
On any project, you will have a number of project constraints that are competing for your attention.
They are cost, scope, quality, risk, resources, and time.
• Cost is the budget approved for the project including all necessary expenses needed to
deliver the project. Within organizations, project managers have to balance between not run-
ning out of money and not underspending because many projects receive funds or grants that
have contract clauses with a “use it or lose it” approach to project funds. Poorly executed
budget plans can result in a last-minute rush to spend the allocated funds. For virtually all
projects, cost is ultimately a limiting constraint; few projects can go over budget without
eventually requiring a corrective action.
• Scope is what the project is trying to achieve. It entails all the work involved in delivering the
project outcomes and the processes used to produce them. It is the reason and the purpose of
the project.
• Quality is a combination of the standards and criteria to which the project’s products must be
delivered for them to perform effectively. The product must perform to provide the function-
ality expected, solve the identified problem, and deliver the benefit and value expected. It
must also meet other performance requirements, or service levels, such as availability, relia-
bility, and maintainability, and have acceptable finish and polish. Quality on a project is con-
trolled through quality assurance (QA), which is the process of evaluating overall project
performance on a regular basis to provide confidence that the project will satisfy the relevant
quality standards.
• Risk is defined by potential external events that will have a negative impact on your project
if they occur. Risk refers to the combination of the probability the event will occur and the
impact on the project if the event occurs. If the combination of the probability of the occur-
rence and the impact on the project is too high, you should identify the potential event as a
risk and put a proactive plan in place to manage the risk.
• Resources are required to carry out the project tasks. They can be people, equipment, facili-
ties, funding, or anything else capable of definition (usually other than labour) required for
the completion of a project activity.
• Time is defined as the time to complete the project. Time is often the most frequent project
oversight in developing projects. This is reflected in missed deadlines and incomplete deliv-
erables. Proper control of the schedule requires the careful identification of tasks to be per-
formed and accurate estimations of their durations, the sequence in which they are going to
be done, and how people and other resources are to be allocated. Any schedule should take
2. Project Management Overview 14

into account vacations and holidays.
You may have heard of the term “triple constraint,” which traditionally consisted of only time, cost, and
scope. These are the primary competing project constraints that you have to be most aware of. The triple
constraint is illustrated in the form of a triangle to visualize the project work and see the relationship
between the scope/quality, schedule/time, and cost/resource (Figure 2.2). In this triangle, each side rep-
resents one of the constraints (or related constraints) wherein any changes to any one side cause a change
in the other sides. The best projects have a perfectly balanced triangle. Maintaining this balance is dif-
ficult because projects are prone to change. For example, if scope increases, cost and time may increase
disproportionately. Alternatively, if the amount of money you have for your project decreases, you may
be able to do as much, but your time may increase.
Figure 2.2: A schematic of the triple constraint
triangle.
Your project may have additional constraints that you must face, and as the project manager, you have to
balance the needs of these constraints against the needs of the stakeholders and your project goals. For
instance, if your sponsor wants to add functionality to the original scope, you will very likely need more
money to finish the project, or if they cut the budget, you will have to reduce the quality of your scope,
and if you don’t get the appropriate resources to work on your project tasks, you will have to extend your
schedule because the resources you have take much longer to finish the work.
You get the idea; the constraints are all dependent on each other. Think of all of these constraints as
the classic carnival game of Whac-a-mole (Figure 2.3). Each time you try to push one mole back in the
hole, another one pops out. The best advice is to rely on your project team to keep these moles in place.
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Figure 2.3: Whac-a-mole.
Here is an example of a project that cut quality because the project costs were fixed. The P-36 oil plat-
form (Figure 2.4) was the largest footing production platform in the world capable of processing 180,000
barrels of oil per day and 5.2 million cubic metres of gas per day. Located in the Roncador Field, Cam-
pos Basin, Brazil, the P-36 was operated by Petrobras.
Figure 2.4.: The Petrobras P-36 oil platform sinking.
In March 2001, the P-36 was producing around 84,000 barrels of oil and 1.3 million cubic metres of
gas per day when it became destabilized by two explosions and subsequently sank in 3,900 feet of water
with 1,650 short tons of crude oil remaining on board, killing 11 people. The sinking is attributed to a
complete failure in quality assurance, and pressure for increased production led to corners being cut on
safety procedures. It is listed as one of the most expensive accidents with a price tag of $515,000,000.
The following quotes are from a Petrobras executive, citing the benefits of cutting quality assurance
and inspection costs on the project.
“Petrobras has established new global benchmarks for the generation of exceptional shareholder wealth
through an aggressive and innovative program of cost cutting on its P36 production facility.”
“Conventional constraints have been successfully challenged and replaced with new paradigms appropriate
to the globalized corporate market place.”
“Elimination of these unnecessary straitjackets has empowered the project’s suppliers and contractors to pro-
pose highly economical solutions, with the win-win bonus of enhanced profitability margins for themselves.”
“The P36 platform shows the shape of things to come in the unregulated global market economy of the 21st
century.”
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The dynamic trade-offs between the project constraint values have been humorously and accurately
described in Figure 2.5.
Figure 2.5: Good, Quick, Cheap: Choose two. A sign
seen at an automotive repair shop. [Image
Description]
Project Management Expertise
In order for you, as the project manager, to manage the competing project constraints and the project
as a whole, there are some areas of expertise you should bring to the project team (Figure 2.11). They
are knowledge of the application area and the standards and regulations in your industry, understand-
ing of the project environment, general management knowledge and skills, and interpersonal skills. It
should be noted that industry expertise is not in a certain field but the expertise to run the project. So
while knowledge of the type of industry is important, you will have a project team supporting you in
this endeavor. For example, if you are managing a project that is building an oil platform, you would not
be expected to have a detailed understanding of the engineering since your team will have mechanical
and civil engineers who will provide the appropriate expertise; however, it would definitely help if you
understood this type of work.
Let’s take a look at each of these areas in more detail.
Application knowledge
By standards, we mean guidelines or preferred approaches that are not necessarily mandatory. In con-
trast, when referring to regulations we mean mandatory rules that must be followed, such as government-
imposed requirements through laws. It should go without saying that as a professional, you’re required
to follow all applicable laws and rules that apply to your industry, organization, or project. Every indus-
try has standards and regulations. Knowing which ones affect your project before you begin work will
not only help the project to unfold smoothly, but will also allow for effective risk analysis.
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Figure 2.6: Areas of expertise that a project manager should bring to the project team.
Some projects require specific skills in certain application areas. Application areas are made up of cate-
gories of projects that have common elements. They can be defined by industry group (pharmaceutical,
financial, etc.), department (accounting, marketing, legal, etc.), technology (software development, engi-
neering, etc), or management specialties (procurement, research and development, etc.). These appli-
cation areas are usually concerned with disciplines, regulations, and the specific needs of the project,
the customer, or the industry. For example, most government agencies have specific procurement rules
that apply to their projects that wouldn’t be applicable in the construction industry. The pharmaceutical
industry is interested in regulations set forth by government regulators, whereas the automotive industry
has little or no concern for either of these types of regulations. You need to stay up-to-date regarding
your industry so that you can apply your knowledge effectively. Today’s fast-paced advances can leave
you behind fairly quickly if you don’t stay abreast of current trends.
Having some level of experience in the application area you’re working in will give you an advantage
when it comes to project management. While you can call in experts who have the application area
knowledge, it doesn’t hurt for you to understand the specific aspects of the application areas of your pro-
ject.
Understanding the Project Environment
There are many factors that need to be understood within your project environment (Figure 2.7). At one
level, you need to think in terms of the cultural and social environments (i.e., people, demographics, and
education). The international and political environment is where you need to understand about differ-
ent countries’ cultural influences. Then we move to the physical environment; here we think about time
zones. Think about different countries and how differently your project will be executed whether it is
just in your country or if it involves an international project team that is distributed throughout the world
in five different countries.
Figure 2.7: The important factors to consider within
the project environment.
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Of all the factors, the physical ones are the easiest to understand, and it is the cultural and international
factors that are often misunderstood or ignored. How we deal with clients, customers, or project mem-
bers from other countries can be critical to the success of the project. For example, the culture of the
United States values accomplishments and individualism. Americans tend to be informal and call each
other by first names, even if having just met. Europeans tend to be more formal, using surnames instead
of first names in a business setting, even if they know each other well. In addition, their communica-
tion style is more formal than in the United States, and while they tend to value individualism, they also
value history, hierarchy, and loyalty. The Japanese, on the other hand, tend to communicate indirectly
and consider themselves part of a group, not as individuals. The Japanese value hard work and success,
as most of us do.
How a product is received can be very dependent on the international cultural differences. For exam-
ple, in the 1990s, when many large American and European telecommunications companies were culti-
vating new markets in Asia, their customer’s cultural differences often produced unexpected situations.
Western companies planned their telephone systems to work the same way in Asia as they did in Europe
and the United States. But the protocol of conversation was different. Call-waiting, a popular feature in
the West, is considered impolite in some parts of Asia. This cultural blunder could have been avoided
had the team captured the project environment requirements and involved the customer.
It is often the simplest things that can cause trouble since, unsurprisingly, in different countries, people
do things differently. One of the most notorious examples of this is also one of the most simple: date for-
mats. What day and month is 2/8/2009? Of course it depends where you come from; in North America
it is February 8th while in Europe (and much of the rest of the world) it is 2nd August. Clearly, when
schedules and deadlines are being defined it is important that everyone is clear on the format used.
The diversity of practices and cultures and its impact on products in general and on software in par-
ticular goes well beyond the date issue. You may be managing a project to create a new website for a
company that sells products worldwide. There are language and presentation style issues to take into
consideration; converting the site into different languages isn’t enough. It is obvious that you need to
ensure the translation is correct; however, the presentation layer will have its own set of requirements for
different cultures. The left side of a website may be the first focus of attention for a Canadian; the right
side would be the initial focus for anyone from the Middle East, as both Arabic and Hebrew are writ-
ten from right to left. Colors also have different meanings in different cultures. White, which is a sign
of purity in North America (e.g., a bride’s wedding dress), and thus would be a favoured background
colour in North America, signifies death in Japan (e.g., a burial shroud). Table 2.1 summarizes different
meanings of common colours.
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Table 2.1: The meaning of colours in various cultures.
Colour United States China Japan Egypt France
Red Danger, stop Happiness Anger, danger Death Aristocracy
Blue Sadness,melancholy Heavens, clouds Villainy Virtue, faith, truth
Freedom,
peace
Green Novice,apprentice
Ming dynasty,
heavens
Future, youth,
energy Fertility, strength Criminality
Yellow Cowardice Birth, wealth Grace, nobility Happiness,prosperity Temporary
White Purity Death, purity Death Joy Naturality
Project managers in multicultural projects must appreciate the culture dimensions and try to learn rel-
evant customs, courtesies, and business protocols before taking responsibility for managing an interna-
tional project. A project manager must take into consideration these various cultural influences and how
they may affect the project’s completion, schedule, scope, and cost.
Management Knowledge and Skills
As the project manager, you have to rely on your project management knowledge and your general
management skills. Here, we are thinking of items like your ability to plan the project, execute it prop-
erly, and of course control it and bring it to a successful conclusion, along with your ability to guide the
project team to achieve project objectives and balance project constraints.
There is more to project management than just getting the work done. Inherent in the process of pro-
ject management are the general management skills that allow the project manager to complete the pro-
ject with some level of efficiency and control. In some respects, managing a project is similar to running
a business: there are risk and rewards, finance and accounting activities, human resource issues, time
management, stress management, and a purpose for the project to exist. General management skills are
needed in every project.
Interpersonal Skills
Last but not least you also have to bring the ability into the project to manage personal relationships and
deal with personnel issues as they arise. Here were talking about your interpersonal skills as shown in
Figure 2.8.
Communication
Project managers spend 90% of their time communicating. Therefore they must be good communicators,
promoting clear, unambiguous exchange of information. As a project manager, it is your job to keep a
number of people well informed. It is essential that your project staff know what is expected of them:
what they have to do, when they have to do it, and what budget and time constraints and quality speci-
fications they are working toward. If project staff members do not know what their tasks are, or how to
accomplish them, then the entire project will grind to a halt. If you do not know what the project staff is
2. Project Management Overview 20

(or often is not) doing, then you will be unable to monitor project progress. Finally, if you are uncertain
of what the customer expects of you, then the project will not even get off the ground. Project commu-
nication can thus be summed up as knowing “who needs what information and when” and making sure
they have it.
Figure 2.8: Interpersonal skills required of a project
manager.
All projects require sound communication plans, but not all projects will have the same types of
communication or the same methods for distributing the information. For example, will information be
distributed via mail or email, is there a shared website, or are face-to-face meetings required? The com-
munication management plan documents how the communication needs of the stakeholders will be met,
including the types of information that will be communicated, who will communicate them, and who
will receive them; the methods used to communicate; the timing and frequency of communication; the
method for updating the plan as the project progresses, including the escalation process; and a glossary
of common terms.
Influence
Project management is about getting things done. Every organization is different in its policies, modes of
operations, and underlying culture. There are political alliances, differing motivations, conflicting inter-
ests, and power struggles. A project manager must understand all of the unspoken influences at work
within an organization.
Leadership
Leadership is the ability to motivate and inspire individuals to work toward expected results. Leaders
inspire vision and rally people around common goals. A good project manager can motivate and inspire
the project team to see the vision and value of the project. The project manager as a leader can inspire
the project team to find a solution to overcome perceived obstacles to get the work done.
Motivation
Motivation helps people work more efficiently and produce better results. Motivation is a constant
process that the project manager must guide to help the team move toward completion with passion and
a profound reason to complete the work. Motivating the team is accomplished by using a variety of
team-building techniques and exercises. Team building is simply getting a diverse group of people to
work together in the most efficient and effective manner possible. This may involve management events
as well as individual actions designed to improve team performance.
Recognition and rewards are an important part of team motivations. They are formal ways of rec-
ognizing and promoting desirable behaviour and are most effective when carried out by the manage-
21 2nd Edition

ment team and the project manager. Consider individual preferences and cultural differences when using
rewards and recognition. Some people don’t like to be recognized in front of a group; others thrive on it.
Negotiation
Project managers must negotiate for the good of the project. In any project, the project manager, the pro-
ject sponsor, and the project team will have to negotiate with stakeholders, vendors, and customers to
reach a level of agreement acceptable to all parties involved in the negotiation process.
Problem Solving
Problem solving is the ability to understand the heart of a problem, look for a viable solution, and then
make a decision to implement that solution. The starting point for problem solving is problem defini-
tion. Problem definition is the ability to understand the cause and effect of the problem; this centres on
root-cause analysis. If a project manager treats only the symptoms of a problem rather than its cause, the
symptoms will perpetuate and continue through the project life. Even worse, treating a symptom may
result in a greater problem. For example, increasing the ampere rating of a fuse in your car because the
old one keeps blowing does not solve the problem of an electrical short that could result in a fire. Root-
cause analysis looks beyond the immediate symptoms to the cause of the symptoms, which then affords
opportunities for solutions. Once the root of a problem has been identified, a decision must be made to
effectively address the problem.
Solutions can be presented from vendors, the project team, the project manager, or various stakehold-
ers. A viable solution focuses on more than just the problem; it looks at the cause and effect of the solu-
tion itself. In addition, a timely decision is needed or the window of opportunity may pass and then a
new decision will be needed to address the problem. As in most cases, the worst thing you can do is
nothing.
All of these interpersonal skills will be used in all areas of project management. Start practicing now
because it’s guaranteed that you’ll need these skills on your next project.
Image Descriptions
Figure 2.5 image description: The sign says, “We can do good, quick, and cheap work. You can have
any two but not all three. 1. Good, quick work won’t be cheap. 2. Good, cheap work won’t be quick. 3.
Quick, cheap work won’t be good.” [Return to Figure 2.5]
Text Attributions
• This chapter of Project Management is a derivative of Project Management by Merrie Barron
and Andrew Barron. © CC BY (Attribution).
• Table 2.1: Adapted from P. Russo and S. Boor, How Fluent is Your Interface? Designing for
International Users, Proceedings of the INTERACT ’93 and CHI ’93, Association for Com-
puting Machinery, Inc. (1993). Table from Barron & Barron Project Management for Scien-
tists and Engineers, Source: Project Management for Scientists and Engineers by Merrie
Barron; Andrew R. Barron
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3. The Project Life Cycle (Phases)
The project manager and project team have one shared goal: to carry out the work of the project for
the purpose of meeting the project’s objectives. Every project has a beginning, a middle period during
which activities move the project toward completion, and an ending (either successful or unsuccessful).
A standard project typically has the following four major phases (each with its own agenda of tasks and
issues): initiation, planning, implementation, and closure. Taken together, these phases represent the path
a project takes from the beginning to its end and are generally referred to as the project “life cycle.”
Initiation Phase
During the first of these phases, the initiation phase, the project objective or need is identified; this can
be a business problem or opportunity. An appropriate response to the need is documented in a business
case with recommended solution options. A feasibility study is conducted to investigate whether each
option addresses the project objective and a final recommended solution is determined. Issues of feasi-
bility (“can we do the project?”) and justification (“should we do the project?”) are addressed.
Once the recommended solution is approved, a project is initiated to deliver the approved solution and
a project manager is appointed. The major deliverables and the participating work groups are identified,
and the project team begins to take shape. Approval is then sought by the project manager to move onto
the detailed planning phase.
Planning Phase
The next phase, the planning phase, is where the project solution is further developed in as much detail
as possible and the steps necessary to meet the project’s objective are planned. In this step, the team
identifies all of the work to be done. The project’s tasks and resource requirements are identified, along
with the strategy for producing them. This is also referred to as “scope management.” A project plan is
created outlining the activities, tasks, dependencies, and timeframes. The project manager coordinates
the preparation of a project budget by providing cost estimates for the labour, equipment, and materials
costs. The budget is used to monitor and control cost expenditures during project implementation.
Once the project team has identified the work, prepared the schedule, and estimated the costs, the
three fundamental components of the planning process are complete. This is an excellent time to identify
and try to deal with anything that might pose a threat to the successful completion of the project. This is
called risk management. In risk management, “high-threat” potential problems are identified along with
the action that is to be taken on each high-threat potential problem, either to reduce the probability that
the problem will occur or to reduce the impact on the project if it does occur. This is also a good time to
identify all project stakeholders and establish a communication plan describing the information needed
and the delivery method to be used to keep the stakeholders informed.
Finally, you will want to document a quality plan, providing quality targets, assurance, and control
measures, along with an acceptance plan, listing the criteria to be met to gain customer acceptance. At
this point, the project would have been planned in detail and is ready to be executed.
24

Implementation (Execution) Phase
During the third phase, the implementation phase, the project plan is put into motion and the work of
the project is performed. It is important to maintain control and communicate as needed during imple-
mentation. Progress is continuously monitored and appropriate adjustments are made and recorded as
variances from the original plan. In any project, a project manager spends most of the time in this step.
During project implementation, people are carrying out the tasks, and progress information is being
reported through regular team meetings. The project manager uses this information to maintain control
over the direction of the project by comparing the progress reports with the project plan to measure the
performance of the project activities and take corrective action as needed. The first course of action
should always be to bring the project back on course (i.e., to return it to the original plan). If that cannot
happen, the team should record variations from the original plan and record and publish modifications to
the plan. Throughout this step, project sponsors and other key stakeholders should be kept informed of
the project’s status according to the agreed-on frequency and format of communication. The plan should
be updated and published on a regular basis.
Status reports should always emphasize the anticipated end point in terms of cost, schedule, and qual-
ity of deliverables. Each project deliverable produced should be reviewed for quality and measured
against the acceptance criteria. Once all of the deliverables have been produced and the customer has
accepted the final solution, the project is ready for closure.
Closing Phase
During the final closure, or completion phase, the emphasis is on releasing the final deliverables to the
customer, handing over project documentation to the business, terminating supplier contracts, releasing
project resources, and communicating the closure of the project to all stakeholders. The last remaining
step is to conduct lessons-learned studies to examine what went well and what didn’t. Through this type
of analysis, the wisdom of experience is transferred back to the project organization, which will help
future project teams.
Example: Project Phases on a Large Multinational Project
A U.S. construction company won a contract to design and build the first copper mine in northern
Argentina. There was no existing infrastructure for either the mining industry or large construction
projects in this part of South America. During the initiation phase of the project, the project manager
focused on defining and finding a project leadership team with the knowledge, skills, and experience
to manage a large complex project in a remote area of the globe. The project team set up three offices.
One was in Chile, where large mining construction project infrastructure existed. The other two were in
Argentina. One was in Buenos Aries to establish relationships and Argentinian expertise, and the sec-
ond was in Catamarca—the largest town close to the mine site. With offices in place, the project start-up
team began developing procedures for getting work done, acquiring the appropriate permits, and devel-
oping relationships with Chilean and Argentine partners.
During the planning phase, the project team developed an integrated project schedule that coordinated
the activities of the design, procurement, and construction teams. The project controls team also devel-
oped a detailed budget that enabled the project team to track project expenditures against the expected
25 2nd Edition

expenses. The project design team built on the conceptual design and developed detailed drawings for
use by the procurement team. The procurement team used the drawings to begin ordering equipment and
materials for the construction team; develop labour projections; refine the construction schedule; and set
up the construction site. Although planning is a never-ending process on a project, the planning phase
focused on developing sufficient details to allow various parts of the project team to coordinate their
work and allow the project management team to make priority decisions.
The implementation phase represents the work done to meet the requirements of the scope of work
and fulfill the charter. During the implementation phase, the project team accomplished the work defined
in the plan and made adjustments when the project factors changed. Equipment and materials were deliv-
ered to the work site, labour was hired and trained, a construction site was built, and all the construction
activities, from the arrival of the first dozer to the installation of the final light switch, were accom-
plished.
The closeout phase included turning over the newly constructed plant to the operations team of the
client. A punch list of a few remaining construction items was developed and those items completed.
The office in Catamarca was closed, the office in Buenos Aries archived all the project documents, and
the Chilean office was already working on the next project. The accounting books were reconciled and
closed, final reports written and distributed, and the project manager started on a new project.
Text Attributions
This chapter of Project Management is a derivative the following texts:
• Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution).
• Project Management From Simple to Complex by Russel Darnall, John Preston, Eastern
Michigan University. © Creative Commons Attribution 3.0 Licence.
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4. Framework for Project Management
Many different professions contribute to the theory and practice of project management. Engineers and
architects have been managing major projects since pre-history. Since approximately the 1960s, there
have been efforts to professionalize the practice of project management as a specialization of its own.
There are many active debates around this: Should project management be a profession in the same
way as engineering, accounting, and medicine? These have professional associations that certify who is
legally allowed to use the job title, and who can legally practice the profession. They also provide a level
of assurance of quality and discipline members who behave inappropriately. Another ongoing debate
is: How much industry knowledge is required of a seasoned project manager? How easily can a project
manager from one industry, say, IT, transition to another industry such as hospitality?
There are two major organizations with worldwide impact on the practice of project management: the
Project Management Institute (PMI), with world headquarters in the United States, and the International
Project Management Association (IPMA), with world headquarters in Switzerland. This textbook takes
an approach that is closer to the PMI approach. More details are included in this chapter, along with a
section on the project management office.
Project Management Institute Overview
Five volunteers founded the Project Management Institute (PMI) in 1969. Their initial goal was to estab-
lish an organization where members could share their experiences in project management and discuss
issues. Today, PMI is a non-profit project management professional association and the most widely rec-
ognized organization in terms of promoting project management best practices. PMI was formed to serve
the interests of the project management industry. The premise of PMI is that the tools and techniques of
project management are common even among the widespread application of projects from the software
to the construction industry. PMI first began offering the Project Management Professional (PMP) certi-
fication exam in 1984. Although it took a while for people to take notice, now more than 590,000 indi-
viduals around the world hold the PMP designation.
To help keep project management terms and concepts clear and consistent, PMI introduced the book
A Guide to the Project Management Body of Knowledge (PMBOK Guide) in 1987. It was updated it in
1996, 2000, 2004, 2009, and most recently in 2013 as the fifth edition. At present, there are more than
one million copies of the PMBOK Guide in circulation. The highly regarded Institute of Electrical and
Electronics Engineers (IEEE) has adopted it as their project management standard. In 1999 PMI was
accredited as an American National Standards Institute (ANSI) standards developer and also has the dis-
tinction of being the first organization to have its certification program attain International Organization
for Standardization (ISO) 9001 recognition. In 2008, the organization reported more than 260,000 mem-
bers in over 171 countries. PMI has its headquarters in Pennsylvania, United States, and also has offices
in Washington, DC, and in Canada, Mexico, and China, as well as having regional service centres in Sin-
gapore, Brussels (Belgium), and New Delhi (India). Recently, an office was opened in Mumbai (India).
Because of the importance of projects, the discipline of project management has evolved into a work-
ing body of knowledge known as PMBOK – Project Management Body of Knowledge. The PMI is
responsible for developing and promoting PMBOK. PMI also administers a professional certification
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program for project managers, the PMP. So if you want to get grounded in project management, PMBOK
is the place to start, and if you want to make project management your profession, then you should con-
sider becoming a PMP.
So what is PMBOK?
PMBOK is the fundamental knowledge you need for managing a project, categorized into 10 knowledge
areas:
1. Managing integration: Projects have all types of activities going on and there is a need to
keep the “whole” thing moving collectively – integrating all of the dynamics that take place.
Managing integration is about developing the project charter, scope statement, and plan to
direct, manage, monitor, and control project change.
2. Managing scope: Projects need to have a defined parameter or scope, and this must be bro-
ken down and managed through a work breakdown structure or WBS. Managing scope is
about planning, definition, WBS creation, verification, and control.
3. Managing time/schedule: Projects have a definite beginning and a definite ending date.
Therefore, there is a need to manage the budgeted time according to a project schedule.
Managing time/schedule is about definition, sequencing, resource and duration estimating,
schedule development, and schedule control.
4. Managing costs: Projects consume resources, and therefore, there is a need to manage the
investment with the realization of creating value (i.e., the benefits derived exceed the amount
spent). Managing costs is about resource planning, cost estimating, budgeting, and control.
5. Managing quality: Projects involve specific deliverables or work products. These deliver-
ables need to meet project objectives and performance standards. Managing quality is about
quality planning, quality assurance, and quality control.
6. Managing human resources: Projects consist of teams and you need to manage project
team(s) during the life cycle of the project. Finding the right people, managing their outputs,
and keeping them on schedule is a big part of managing a project. Managing human
resources is about human resources planning, hiring, and developing and managing a project
team.
7. Managing communication: Projects invariably touch lots of people, not just the end users
(customers) who benefit directly from the project outcomes. This can include project partici-
pants, managers who oversee the project, and external stakeholders who have an interest in
the success of the project. Managing communication is about communications planning,
information distribution, performance reporting, and stakeholder management.
8. Managing risk: Projects are a discovery-driven process, often uncovering new customer
needs and identifying critical issues not previously disclosed. Projects also encounter unex-
pected events, such as project team members resigning, budgeted resources suddenly chang-
ing, the organization becoming unstable, and newer technologies being introduced. There is a
real need to properly identify various risks and manage these risks. Managing risk is about
risk planning and identification, risk analysis (qualitative and quantitative), risk response
(action) planning, and risk monitoring and control.
4. Framework for Project Management 28

9. Managing procurement: Projects procure the services of outside vendors and contractors,
including the purchase of equipment. There is a need to manage how vendors are selected
and managed within the project life cycle. Managing procurement is about acquisition and
contracting plans, sellers’ responses and selections, contract administration, and contract clo-
sure.
10. Managing stakeholders: Every project impacts people and organizations and is impacted by
people and organizations. Identifying these stakeholders early, and as they arise and change
throughout the project, is a key success factor. Managing stakeholders is about identifying
stakeholders, their interest level, and their potential to influence the project; and managing
and controlling the relationships and communications between stakeholders and the project.
This is the big framework for managing projects and if you want to be effective in managing projects,
then you need to be effective in managing each of the 10 knowledge areas that make up PMBOK (see
Figure 4.1)
Figure 4.1: PM Star Model suggested by
GeekDisplaced
Certification in project management is available from the PMI, PRINCE2, ITIL, Critical Chain, and oth-
ers. Agile project management methodologies (Scrum, extreme programming, Lean Six Sigma, others)
also have certifications.
Introduction to the Project Management Knowledge Areas
As discussed above, projects are divided into components, and a project manager must be knowledge-
able in each area. Each of these areas of knowledge will be explored in more depth in subsequent chap-
ters. For now, lets look at them in a little more detail to prepare you for the chapters that follow.
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Project Start-Up and Integration
The start-up of a project is similar to the start-up of a new organization. The project leader develops
the project infrastructure used to design and execute the project. The project management team must
develop alignment among the major stakeholders—those who have a share or interest—on the project
during the early phases or definition phases of the project. The project manager will conduct one or more
kickoff meetings or alignment sessions to bring the various parties of the project together and begin the
project team building required to operate efficiently during the project.
During project start-up, the project management team refines the scope of work and develops a pre-
liminary schedule and conceptual budget. The project team builds a plan for executing the project based
on the project profile. The plan for developing and tracking the detailed schedule, the procurement plan,
and the plan for building the budget and estimating and tracking costs are developed during the start-up.
The plans for information technology, communication, and tracking client satisfaction are also all devel-
oped during the start-up phase of the project.
Flowcharts, diagrams, and responsibility matrices are tools to capture the work processes associated
with executing the project plan. The first draft of the project procedures manual captures the historic and
intuitional knowledge that team members bring to the project. The development and review of these pro-
cedures and work processes contribute to the development of the organizational structure of the project.
This is typically an exciting time on a project where all things are possible. The project management
team is working many hours developing the initial plan, staffing the project, and building relationships
with the client. The project manager sets the tone of the project and sets expectations for each of the
project team members. The project start-up phase on complex projects can be chaotic, and until plans are
developed, the project manager becomes the source of information and direction. The project manager
creates an environment that encourages team members to fully engage in the project and encourages
innovative approaches to developing the project plan.
Project Scope
The project scope is a document that defines the parameters—factors that define a system and determine
its behaviour—of the project, what work is done within the boundaries of the project, and the work that
is outside the project boundaries. The scope of work (SOW) is typically a written document that defines
what work will be accomplished by the end of the project—the deliverables of the project. The project
scope defines what will be done, and the project execution plan defines how the work will be accom-
plished.
No template works for all projects. Some projects have a very detailed scope of work, and some have
a short summary document. The quality of the scope is measured by the ability of the project manager
and project stakeholders to develop and maintain a common understanding of what products or services
the project will deliver. The size and detail of the project scope is related to the complexity profile of the
project. A more complex project often requires a more detailed and comprehensive scope document.
According to the PMI, the scope statement should include the following:
• Description of the scope
• Product acceptance criteria
• Project deliverables
• Project exclusions
4. Framework for Project Management 30

• Project constraints
• Project assumptions
The scope document is the basis for agreement by all parties. A clear project scope document is also crit-
ical to managing change on a project. Since the project scope reflects what work will be accomplished
on the project, any change in expectations that is not captured and documented creates the opportunity
for confusion. One of the most common trends on projects is the incremental expansion in the project
scope. This trend is labeled “scope creep.” Scope creep threatens the success of a project because the
small increases in scope require additional resources that were not in the plan. Increasing the scope of
the project is a common occurrence, and adjustments are made to the project budget and schedule to
account for these changes. Scope creep occurs when these changes are not recognized or not managed.
The ability of a project manager to identify potential changes is often related to the quality of the scope
documents.
Events do occur that require the scope of the project to change. Changes in the marketplace may
require change in a product design or the timing of the product delivery. Changes in the client’s manage-
ment team or the financial health of the client may also result in changes in the project scope. Changes
in the project schedule, budget, or product quality will have an effect on the project plan. Generally,
the later in the project the change occurs, the greater the increase to the project costs. Establishing a
change management system for the project that captures changes to the project scope and assures that
these changes are authorized by the appropriate level of management in the client’s organization is the
responsibility of the project manager. The project manager also analyzes the cost and schedule impact of
these changes and adjusts the project plan to reflect the changes authorized by the client. Changes to the
scope can cause costs to increase or decrease.
Project Schedule and Time Management
The definition of project success often includes completing the project on time. The development and
management of a project schedule that will complete the project on time is a primary responsibility of
the project manager, and completing the project on time requires the development of a realistic plan and
the effective management of the plan. On smaller projects, project managers may lead the development
of the project plan and build a schedule to meet that plan. On larger and more complex projects, a project
controls team that focuses on both costs and schedule planning and controlling functions will assist the
project management team in developing the plan and tracking progress against the plan.
To develop the project schedule, the project team does an analysis of the project scope, contract, and
other information that helps the team define the project deliverables. Based on this information, the pro-
ject team develops a milestone schedule. The milestone schedule establishes key dates throughout the
life of a project that must be met for the project to finish on time. The key dates are often established to
meet contractual obligations or established intervals that will reflect appropriate progress for the project.
For less complex projects, a milestone schedule may be sufficient for tracking the progress of the pro-
ject. For more complex projects, a more detailed schedule is required.
To develop a more detailed schedule, the project team first develops a work breakdown struc-
ture (WBS)—a description of tasks arranged in layers of detail. Although the project scope is the pri-
mary document for developing the WBS, the WBS incorporates all project deliverables and reflects any
documents or information that clarifies the project deliverables. From the WBS, a project plan is devel-
oped. The project plan lists the activities that are needed to accomplish the work identified in the WBS.
The more detailed the WBS, the more activities that are identified to accomplish the work.
31 2nd Edition

After the project team identifies the activities, the team sequences the activities according to the
order in which the activities are to be accomplished. An outcome from the work process is the pro-
ject logic diagram. The logic diagram represents the logical sequence of the activities needed to com-
plete the project. The next step in the planning process is to develop an estimation of the time it will
take to accomplish each activity or the activity duration. Some activities must be done sequentially, and
some activities can be done concurrently. The planning process creates a project schedule by scheduling
activities in a way that effectively and efficiently uses project resources and completes the project in the
shortest time.
On larger projects, several paths are created that represent a sequence of activities from the beginning
to the end of the project. The longest path to the completion of the project is the critical path. If the crit-
ical path takes less time than is allowed by the client to complete the project, the project has a positive
total float or project slack. If the client’s project completion date precedes the calculated critical path end
date, the project has a negative float. Understanding and managing activities on the critical path is an
important project management skill.
To successfully manage a project, the project manager must also know how to accelerate a schedule to
compensate for unanticipated events that delay critical activities. Compressing—crashing—the schedule
is a term used to describe the techniques used to shorten the project schedule. During the life of the pro-
ject, scheduling conflicts often occur, and the project manager is responsible for reducing these conflicts
while maintaining project quality and meeting cost goals.
Project Costs
The definition of project success often includes completing the project within budget. Developing and
controlling a project budget that will accomplish the project objectives is a critical project management
skill. Although clients expect the project to be executed efficiently, cost pressures vary on projects. On
some projects, the project completion or end date is the largest contributor to the project complexity. The
development of a new drug to address a critical health issue, the production of a new product that will
generate critical cash flow for a company, and the competitive advantage for a company to be first in
the marketplace with a new technology are examples of projects with schedule pressures that override
project costs.
The accuracy of the project budget is related to the amount of information known by the project team.
In the early stages of the project, the amount of information needed to develop a detailed budget is often
missing. To address the lack of information, the project team develops different levels of project budget
estimates. The conceptual estimate (or “ballpark estimate”) is developed with the least amount of knowl-
edge. The major input into the conceptual estimate is expert knowledge or past experience. A project
manager who has executed a similar project in the past can use those costs to estimate the costs of the
current project.
When more information is known, the project team can develop a rough order of magnitude (ROM)
estimate. Additional information such as the approximate square feet of a building, the production capac-
ity of a plant, and the approximate number of hours needed to develop a software program can provide a
basis for providing a ROM estimate. After a project design is more complete, a project detailed estimate
can be developed. For example, when the project team knows the number of rooms, the type of materi-
als, and the building location of a home, they can provide a detailed estimate. A detailed estimate is not
a bid.
The cost of the project is tracked relative to the progress of the work and the estimate for accomplish-
ing that work. Based on the cost estimate, the cost of the work performed is compared against the cost
4. Framework for Project Management 32

budgeted for that work. If the cost is significantly higher or lower, the project team explores reasons for
the difference between expected costs and actual costs.
Project costs may deviate from the budget because the prices in the marketplace were different from
what was expected. For example, the estimated costs for lumber on a housing project may be higher than
budgeted or the hourly cost for labour may be lower than budgeted. Project costs may also deviate based
on project performance. For example, a project team estimated that the steel design for a bridge over a
river would take 800 labour hours, but 846 hours were actually expended. The project team captures the
deviation between costs budgeted for work and the actual cost for work, revises the estimate as needed,
and takes corrective action if the deviation appears to reflect a trend.
The project manager is responsible for assuring that the project team develops cost estimates based on
the best information available and revises those estimates as new or better information becomes avail-
able. The project manager is also responsible for tracking costs against the budget and conducting an
analysis when project costs deviate significantly from the project estimate. The project manager then
takes appropriate corrective action to ensure that project performance matches the revised project plan.
Project Quality
Project quality focuses on the end product or service deliverables that reflect the purpose of the project.
The project manager is responsible for developing a project execution approach that provides for a clear
understanding of the expected project deliverables and the quality specifications. The project manager of
a housing construction project not only needs to understand which rooms in the house will be carpeted
but also what grade of carpet is needed. A room with a high volume of traffic will need a high-grade
carpet.
The project manager is responsible for developing a project quality plan that defines the quality expec-
tations and ensures that the specifications and expectations are met. Developing a good understanding of
the project deliverables through documenting specifications and expectations is critical to a good quality
plan. The processes for ensuring that the specifications and expectations are met are integrated into the
project execution plan. Just as the project budget and completion dates may change over the life of a
project, the project specifications may also change. Changes in quality specifications are typically man-
aged in the same process as cost or schedule changes. The impact of the changes is analyzed for impact
on cost and schedule, and with appropriate approvals, changes are made to the project execution plan.
The PMI’s A Guide to the Project Management Body of Knowledge (PMBOK Guide) has an extensive
chapter on project quality management. The material found in this chapter would be similar to material
found in a good operational management text.
Although any of the quality management techniques designed to make incremental improvement to
work processes can be applied to a project work process, the character of a project (unique and rela-
tively short in duration) makes small improvements less attractive on projects. Rework on projects, as
with manufacturing operations, increases the cost of the product or service and often increases the time
needed to complete the reworked activities. Because of the duration constraints of a project, the devel-
opment of the appropriate skills, materials, and work processes early in the project is critical to project
success. On more complex projects, time is allocated to developing a plan to understand and develop the
appropriate levels of skills and work processes.
Project management organizations that execute several similar types of projects may find process
improvement tools useful in identifying and improving the baseline processes used on their projects.
Process improvement tools may also be helpful in identifying cost and schedule improvement oppor-
tunities. Opportunities for improvement must be found quickly to influence project performance. The
33 2nd Edition

investment in time and resources to find improvements is greatest during the early stages of the project,
when the project is in the planning stages. During later project stages, as pressures to meet project sched-
ule goals increase, the culture of the project is less conducive to making changes in work processes.
Another opportunity for applying process improvement tools is on projects that have repetitive
processes. A housing contractor that is building several identical houses may benefit from evaluating
work processes in the first few houses to explore the opportunities available to improve the work
processes. The investment of $1,000 in a work process that saves $200 per house is a good investment
as long as the contractor is building more than five houses.
Project Team: Human Resources and Communications
Staffing the project with the right skills, at the right place, and at the right time is an important respon-
sibility of the project management team. The project usually has two types of team members: functional
managers and process managers. The functional managers and team focus on the technology of the pro-
ject. On a construction project, the functional managers would include the engineering manager and con-
struction superintendents. On a training project, the functional manager would include the professional
trainers; on an information technology project, the software development managers would be functional
managers. The project management team also includes project process managers. The project controls
team would include process managers who have expertise in estimating, cost tracking, planning, and
scheduling. The project manager needs functional and process expertise to plan and execute a successful
project.
Because projects are temporary, the staffing plan for a project typically reflects both the long-term
goals of skilled team members needed for the project and short-term commitment that reflects the nature
of the project. Exact start and end dates for team members are often negotiated to best meet the needs
of individuals and the project. The staffing plan is also determined by the different phases of the pro-
ject. Team members needed in the early or conceptual phases of the project are often not needed during
the later phases or project closeout phases. Team members needed during the implementation phase are
often not needed during the conceptual or closeout phases. Each phase has staffing requirements, and
the staffing of a complex project requires detailed planning to have the right skills, at the right place, at
the right time.
Typically a core project management team is dedicated to the project from start-up to closeout. This
core team would include members of the project management team: project manager, project controls,
project procurement, and key members of the function management or experts in the technology of the
project. Although longer projects may experience more team turnover than shorter projects, it is impor-
tant on all projects to have team members who can provide continuity through the project phases.
For example, on a large commercial building project, the civil engineering team that designs the site
work where the building will be constructed would make their largest contribution during the early
phases of the design. The civil engineering lead would bring on different civil engineering specialties
as they were needed. As the civil engineering work is completed and the structural engineering is well
underway, a large portion of the civil engineers would be released from the project. The functional man-
agers, the engineering manager, and civil engineering lead would provide expertise during the entire
length of the project, addressing technical questions that may arise and addressing change requests.
Project team members can be assigned to the project from a number of different sources. The organi-
zation that charters the project can assign talented managers and staff from functional units within the
organization, contract with individuals or agencies to staff positions on the project, temporarily hire staff
for the project, or use any combination of these staffing options. This staffing approach allows the pro-
4. Framework for Project Management 34

ject manager to create the project organizational culture. Some project cultures are more structured and
detail oriented, and some are less structured with less formal roles and communication requirements.
The type of culture the project manager creates depends greatly on the type of project.
Communications
Completing a complex project successfully requires teamwork, and teamwork requires good communi-
cation among team members. If those team members work in the same building, they can arrange reg-
ular meetings, simply stop by each other’s office space to get a quick answer, or even discuss a project
informally at other office functions. Many complex projects in today’s global economy involve team
members from widely separated locations, and the types of meetings that work within the same building
are not possible. Teams that use electronic methods of communicating without face-to-face meetings are
called virtual teams.
Communicating can be divided into two categories: synchronous and asynchronous. If all the parties
to the communication are taking part in the exchange at the same time, the communication is synchro-
nous. A telephone conference call is an example of synchronous communication. When the participants
are not interacting at the same time, the communication is asynchronous. (The letter a at the beginning
of the word means not.) Communications technologies require a variety of compatible devices, software,
and service providers, and communication with a global virtual team can involve many different time
zones. Establishing effective communications requires a communications plan.
Project Risk
Risk exists on all projects. The role of the project management team is to understand the kinds and
levels of risks on the project and then to develop and implement plans to mitigate these risks. Risk rep-
resents the likelihood that an event will happen during the life of the project that will negatively affect
the achievement of project goals. The type and amount of risk varies by industry type, complexity, and
phase of the project. The project risk plan will also reflect the risk profile of the project manager and key
stakeholders. People have different comfort levels with risk, and some members of the project team will
be more risk averse than others.
The first step in developing a risk management plan involves identifying potential project risks. Some
risks are easy to identify, such as the potential for a damaging storm in the Caribbean, and some are
less obvious. Many industries or companies have risk checklists developed from past experience. The
Construction Industry Institute published a 100-item risk checklist that provides examples and areas of
project risks. No risk checklist will include all potential risks. The value of a checklist is the stimulation
of discussion and thought about the potential risks on a project.
The project team analyzes the identified risks and estimates the likelihood of the risks occurring. The
team then estimates the potential impact on project goals if the event does occur. The outcome from this
process is a prioritized list of estimated project risks with a value that represents the likelihood of occur-
rence and the potential impact on the project.
The project team then develops a risk mitigation plan that reduces the likelihood of an event occurring
or reduces the impact on the project if the event does occur. The risk management plan is integrated into
the project execution plan, and mitigation activities are assigned to the appropriate project team member.
The likelihood that all the potential events identified in the risk analysis would occur is extremely rare.
The likelihood that one or more events will happen is high.
The project risk plan reflects the risk profile of the project and balances the investment of the mitiga-
35 2nd Edition

tion against the benefit for the project. One of the more common risk mitigation approaches is the use of
contingency. Contingency is funds set aside by the project team to address unforeseen events. Projects
with a high-risk profile will typically have a large contingency budget. If the team knows which activi-
ties have the highest risk, contingency can be allocated to activities with the highest risk. When risks are
less identifiable to specific activities, contingency is identified in a separate line item. The plan includes
periodic risk-plan reviews during the life of the project. The risk review evaluates the effectiveness of
the current plan and explores possible risks not identified in earlier sessions.
Project Procurement
The procurement effort on projects varies widely and depends on the type of project. Often the client
organization will provide procurement services on less complex projects. In this case, the project team
identifies the materials, equipment, and supplies needed by the project and provides product specifica-
tions and a detailed delivery schedule. When the procurement department of the parent organization pro-
vides procurement services, a liaison from the project can help the procurement team better understand
the unique requirements of the project and the time-sensitive or critical items of the project schedule.
On larger, more complex projects, personnel are dedicated to procuring and managing the equipment,
supplies, and materials needed by the project. Because of the temporary nature of projects, equipment,
supplies, and materials are procured as part of the product of the project or for the execution of the pro-
ject. For example, the bricks procured for a construction project would be procured for the product of
the project, and the mortar mixer would be equipment procured for the execution of the project work. At
the end of the project, equipment bought or rented for the execution of the work of the project are sold,
returned to rental organizations, or disposed of some other way.
More complex projects will typically procure through different procurement and management meth-
ods. Commodities are common products that are purchased based on the lowest bid. Commodities
include items like concrete for building projects, office supplies, or even lab equipment for a research
project. The second type of procurement includes products that are specified for the project. Vendors
who can produce these products bid for a contract. The awarding of a contract can include price, ability
to meet the project schedule, the fit for purpose of the product, and other considerations important to the
project. Manufacturing a furnace for a new steel mill would be provided by a project vendor. Equipment
especially designed and built for a research project is another example. These vendors’ performances
become important parts of the project, and the project manager assigns resources to coordinate the work
and schedule of the vendor. The third procurement approach is the development of one or more partners.
A design firm that is awarded the design contract for a major part of the steel mill and a research firm
that is conducting critical subparts of the research are examples of potential project partners. A partner
contributes to and is integrated into the execution plan. Partners perform best when they share the pro-
ject vision of success and are emotionally invested in the project. The project management team builds
and implements a project procurement plan that recognizes the most efficient and effective procurement
approach to support the project schedule and goals.
Project Stakeholder Management
People and organizations can have many different relationships to the project. Most commonly, these
relationships can be grouped into those who will be impacted by the project and those who can impact
the project.
A successful project manager will identify stakeholders early in the project. For each stakeholder, it
4. Framework for Project Management 36

is important to identify what they want or need and what influence or power they have over the pro-
ject. Based on this information, the need to communicate with the stakeholder or stakeholder group can
be identified, followed by the creation of a stakeholder management plan. A stakeholder register is used
to identify and track the interactions between the project and each stakeholder. This register must be
updated on a regular basis, as new stakeholders can arise at any time, and the needs and interest levels
of a particular stakeholder may change through the course of the project.
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Table 4.1 Stakeholder Register
Knowledge
Area Initiating Planning Executing
Monitoring and
Controlling Closing
Project
Integration
Management
Develop
Project
Charter
Develop Project
Management Plan
• Monitor
and
control
project
work
• Perform
integrated
change
control
Close project
or phase
Project
Scope
Management
• Plan scope
management
• Collect
requirements
• Define
scope
• Create WBS
• Validate
scope
• Control
scope
Project Time
Management
• Plan
schedule
management
• Define
activities
• Sequence
activities
• Estimate
activity
resources
• Estimate
activity
durations
• Develop
schedule
Control schedule
4. Framework for Project Management 38

Knowledge
Area Initiating Planning Executing
Monitoring and
Controlling Closing
Project Cost
Management
• Plan cost
management
• Estimate
costs
• Determine
budget
Control costs
Project
Quality
Management
Plan quality
management
Perform
quality
assurance
Control quality
Scrum Development Overview
“Scrum” is another formal project management/product development methodology and part of agile pro-
ject management. Scrum is a term from rugby (scrimmage) that means a way of restarting a game. It’s
like restarting the project efforts every X weeks. It’s based on the idea that you do not really know how
to plan the whole project up front, so you start and build empirical data, and then re-plan and iterate from
there.
Scrum uses sequential sprints for development. Sprints are like small project phases (ideally two to
four weeks). The idea is to take one day to plan for what can be done now, then develop what was
planned for, and demonstrate it at the end of the sprint. Scrum uses a short daily meeting of the develop-
ment team to check what was done yesterday, what is planned for the next day, and what if anything is
impeding the team members from accomplishing what they have committed to. At the end of the sprint,
what has been demonstrated can then be tested, and the next sprint cycle starts.
Scrum methodology defines several major roles. They are:
• Product owners: essentially the business owner of the project who knows the industry, the
market, the customers, and the business goals of the project. The product owner must be inti-
mately involved with the Scrum process, especially the planning and the demonstration parts
of the sprint.
• Scrum Master: somewhat like a project manager, but not exactly. The Scrum Master’s duties
are essentially to remove barriers that impede the progress of the development team, teach
the product owner how to maximize return on investment (ROI) in terms of development
effort, facilitate creativity and empowerment of the team, improve the productivity of the
team, improve engineering practices and tools, run daily standup meetings, track progress,
and ensure the health of the team.
• Development team: self-organizing (light-touch leadership), empowered group; they partici-
pate in planning and estimating for each sprint, do the development, and demonstrate the
results at the end of the sprint. It has been shown that the ideal size for a development team is
7 +/- 2. The development team can be broken into “teamlets” that “swarm” on user stories,
39 2nd Edition

which are created in the sprint planning session.
Typically, the way a product is developed is that there is a “front burner” (which has stories/tasks for the
current sprint), a “back burner” (which has stories for the next sprint), and a “fridge” (which has stories
for later, as well as process changes). One can look at a product as having been broken down like this:
product -> features -> stories -> tasks.
Often effort estimations are done using “story points” (tiny = 1 SP, small = 2 SP, medium = 4 SP, large
= 8 SP, big = 16+ SP, unknown = ? SP) Stories can be of various types. User stories are very common
and are descriptions of what the user can do and what happens as a result of different actions from a
given starting point. Other types of stories are from these areas: analysis, development, QA, documenta-
tion, installation, localization, and training.
Planning meetings for each sprint require participation by the product owner, the Scrum Master, and
the development team. In the planning meeting, they set the goals for the upcoming sprint and select a
subset of the product backlog (proposed stories) to work on. The development team decomposes stories
to tasks and estimates them. The development team and product owner do final negotiations to deter-
mine the backlog for the following sprint.
The Scrum methodology uses metrics to help with future planning and tracking of progress; for exam-
ple, “burn down” – the number of hours remaining in the sprint versus the time in days; “velocity”
– essentially, the amount of effort the team expends. (After approximately three sprints with the same
team, one can get a feel for what the team can do going forward.)
Some caveats about using Scrum methodology: 1) You need committed, mature developers; 2) You
still need to do major requirements definition, some analysis, architecture definition, and definition of
roles and terms up front or early; 3) You need commitment from the company and the product owner;
and 4) It is best for products that require frequent new releases or updates, and less effective for large,
totally new products that will not allow for frequent upgrades once they are released.
The Project Management Office
Many large and even medium-sized organizations have created a department to oversee and support pro-
jects throughout the organization. This is an attempt to reduce the high numbers of failed projects (see
the Project Management Overview chapter.) These offices are usually called the project management
office or PMO.
The PMO may be the home of all the project managers in an organization, or it may simply be a
resource for all project managers, who report to their line areas.
Typical objectives of a PMO are:
• Help ensure that projects are aligned with organizational objectives
• Provide templates and procedures for use by project managers
• Provide training and mentorship
• Provide facilitation
• Stay abreast of the latest trends in project management
• Serve as a repository for project reports and lessons learned
The existence and role of PMOs tends to be somewhat fluid. If a PMO is created, and greater success is
4. Framework for Project Management 40

not experienced in organizational projects, the PMO is at risk of being disbanded as a cost-saving mea-
sure. If an organization in which you are a project manager or a project team member has a PMO, try to
make good use of the resources available. If you are employed as a resource person in a PMO, remem-
ber that your role is not to get in the way and create red tape, but to enable and enhance the success of
project managers and projects within the organization.
Text Attributions
• Table 4.1 by Adrienne Watt. © CC BY (Attribution).
This chapter of Project Management is a derivative of the following texts:
• Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution).
• Project Management From Simple to Complex by Russel Darnall, John Preston, Eastern
Michigan University. © CC BY (Attribution).
Media Attributions
• PM star model by GeekDesplaced © CC BY-SA (Attribution ShareAlike)
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http://cnx.org/content/col11120/latest

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NOTE: Key stakeholders can
make or break the success of a
project. Even if all the
deliverables are met and the
objectives are satisfied, if your
key stakeholders aren’t happy,
nobody’s happy.
5. Stakeholder Management
A project is successful when it achieves its objectives and meets or exceeds the expectations of the stake-
holders. But who are the stakeholders? Stakeholders are individuals who either care about or have a
vested interest in your project. They are the people who are actively involved with the work of the pro-
ject or have something to either gain or lose as a result of the project. When you manage a project to
add lanes to a highway, motorists are stakeholders who are positively affected. However, you negatively
affect residents who live near the highway during your project (with construction noise) and after your
project with far-reaching implications (increased traffic noise and pollution).
The project sponsor, generally an executive in
the organization with the authority to assign
resources and enforce decisions regarding the pro-
ject, is a stakeholder. The customer, subcontrac-
tors, suppliers, and sometimes even the
government are stakeholders. The project manager,
project team members, and the managers from
other departments in the organization are stake-
holders as well. It’s important to identify all the
stakeholders in your project upfront. Leaving out
important stakeholders or their department’s func-
tion and not discovering the error until well into the project could be a project killer.
Figure 5.1 shows a sample of the project environment featuring the different kinds of stakeholders
involved on a typical project. A study of this diagram confronts us with a couple of interesting facts.
First, the number of stakeholders that project managers must deal with ensures that they will have a
complex job guiding their project through the lifecycle. Problems with any of these members can derail
the project.
Second, the diagram shows that project managers have to deal with people external to the organization
as well as the internal environment, certainly more complex than what a manager in an internal environ-
ment faces. For example, suppliers who are late in delivering crucial parts may blow the project sched-
ule. To compound the problem, project managers generally have little or no direct control over any of
these individuals.
42

Figure 5.1: Project stakeholders. In a project, there are both internal and external stakeholders. Internal
stakeholders may include top management, project team members, your manager, peers, resource
manager, and internal customers. External stakeholders may include external customers, government,
contractors and subcontractors, and suppliers.
Let’s take a look at these stakeholders and their relationships to the project manager.
Project Stakeholders
Top Management
Top management may include the president of the company, vice-presidents, directors, division man-
agers, the corporate operating committee, and others. These people direct the strategy and development
of the organization.
On the plus side, you are likely to have top management support, which means it will be easier to
recruit the best staff to carry out the project, and acquire needed material and resources; also visibility
can enhance a project manager’s professional standing in the company.
On the minus side, failure can be quite dramatic and visible to all, and if the project is large and expen-
sive (most are), the cost of failure will be more substantial than for a smaller, less visible project.
Some suggestions in dealing with top management are:
• Develop in-depth plans and major milestones that must be approved by top management dur-
ing the planning and design phases of the project.
• Ask top management associated with your project for their information reporting needs and
frequency.
• Develop a status reporting methodology to be distributed on a scheduled basis.
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• Keep them informed of project risks and potential impacts at all times.
The Project Team
The project team is made up of those people dedicated to the project or borrowed on a part-time basis.
As project manager, you need to provide leadership, direction, and above all, the support to team mem-
bers as they go about accomplishing their tasks. Working closely with the team to solve problems can
help you learn from the team and build rapport. Showing your support for the project team and for each
member will help you get their support and cooperation.
Here are some difficulties you may encounter in dealing with project team members:
• Because project team members are borrowed and they don’t report to you, their priorities
may be elsewhere.
• They may be juggling many projects as well as their full-time job and have difficulty meeting
deadlines.
• Personality conflicts may arise. These may be caused by differences in social style or values
or they may be the result of some bad experience when people worked together in the past.
• You may find out about missed deadlines when it is too late to recover.
Managing project team members requires interpersonal skills. Here are some suggestions that can help:
• Involve team members in project planning.
• Arrange to meet privately and informally with each team member at several points in the pro-
ject, perhaps for lunch or coffee.
• Be available to hear team members’ concerns at any time.
• Encourage team members to pitch in and help others when needed.
• Complete a project performance review for team members.
Your Manager
Typically the boss decides what the assignment is and who can work with the project manager on pro-
jects. Keeping your manager informed will help ensure that you get the necessary resources to complete
your project.
If things go wrong on a project, it is nice to have an understanding and supportive boss to go to bat for
you if necessary. By supporting your manager, you will find your manager will support you more often.
• Find out exactly how your performance will be measured.
• When unclear about directions, ask for clarification.
• Develop a reporting schedule that is acceptable to your boss.
• Communicate frequently.
5. Stakeholder Management 44

Peers
Peers are people who are at the same level in the organization as you and may or may not be on the
project team. These people will also have a vested interest in the product. However, they will have nei-
ther the leadership responsibilities nor the accountability for the success or failure of the project that you
have.
Your relationship with peers can be impeded by:
• Inadequate control over peers
• Political maneuvering or sabotage
• Personality conflicts or technical conflicts
• Envy because your peer may have wanted to lead the project
• Conflicting instructions from your manager and your peer’s manager
Peer support is essential. Because most of us serve our self-interest first, use some investigating, selling,
influencing, and politicking skills here. To ensure you have cooperation and support from your peers:
• Get the support of your project sponsor or top management to empower you as the project
manager with as much authority as possible. It’s important that the sponsor makes it clear to
the other team members that their cooperation on project activities is expected.
• Confront your peer if you notice a behaviour that seems dysfunctional, such as bad-mouthing
the project.
• Be explicit in asking for full support from your peers. Arrange for frequent review meetings.
• Establish goals and standards of performance for all team members.
Resource Managers
Because project managers are in the position of borrowing resources, other managers control their
resources. So their relationships with people are especially important. If their relationship is good, they
may be able to consistently acquire the best staff and the best equipment for their projects. If relation-
ships aren’t good, they may find themselves not able to get good people or equipment needed on the
project.
Internal Customers
Internal customers are individuals within the organization who are customers for projects that meet the
needs of internal demands. The customer holds the power to accept or reject your work. Early in the
relationship, the project manager will need to negotiate, clarify, and document project specifications and
deliverables. After the project begins, the project manager must stay tuned in to the customer’s concerns
and issues and keep the customer informed.
Common stumbling blocks when dealing with internal customers include:
• A lack of clarity about precisely what the customer wants
45 2nd Edition

• A lack of documentation for what is wanted
• A lack of knowledge of the customer’s organization and operating characteristics
• Unrealistic deadlines, budgets, or specifications requested by the customer
• Hesitancy of the customer to sign off on the project or accept responsibility for decisions
• Changes in project scope
To meet the needs of the customer, client, or owner, be sure to do the following:
• Learn the client organization’s buzzwords, culture, and business.
• Clarify all project requirements and specifications in a written agreement.
• Specify a change procedure.
• Establish the project manager as the focal point of communications in the project organiza-
tion.
External customer
External customers are the customers when projects could be marketed to outside customers. In the case
of Ford Motor Company, for example, the external customers would be the buyers of the automobiles.
Also if you are managing a project at your company for Ford Motor Company, they will be your external
customer.
Government
Project managers working in certain heavily regulated environments (e.g., pharmaceutical, banking, or
military industries) will have to deal with government regulators and departments. These can include all
or some levels of government from municipal, provincial, federal, to international.
Contractors, subcontractors, and suppliers
There are times when organizations don’t have the expertise or resources available in-house, and work
is farmed out to contractors or subcontractors. This can be a construction management foreman, network
consultant, electrician, carpenter, architect, or anyone who is not an employee. Managing contractors or
suppliers requires many of the skills needed to manage full-time project team members.
Any number of problems can arise with contractors or subcontractors:
• Quality of the work
• Cost overruns
• Schedule slippage
Many projects depend on goods provided by outside suppliers. This is true for example of construction
projects where lumber, nails, bricks, and mortar come from outside suppliers. If the supplied goods are
5. Stakeholder Management 46

delivered late or are in short supply or of poor quality or if the price is greater than originally quoted, the
project may suffer.
Depending on the project, managing contractor and supplier relationships can consume more than half
of the project manager’s time. It is not purely intuitive; it involves a sophisticated skill set that includes
managing conflicts, negotiating, and other interpersonal skills.
Politics of Projects
Many times, project stakeholders have conflicting interests. It’s the project manager’s responsibility to
understand these conflicts and try to resolve them. It’s also the project manger’s responsibility to manage
stakeholder expectations. Be certain to identify and meet with all key stakeholders early in the project to
understand all their needs and constraints.
Project managers are somewhat like politicians. Typically, they are not inherently powerful or capable
of imposing their will directly on coworkers, subcontractors, and suppliers. Like politicians, if they are
to get their way, they have to exercise influence effectively over others. On projects, project managers
have direct control over very few things; therefore their ability to influence others – to be a good politi-
cian – may be very important
Here are a few steps a good project politician should follow. However, a good rule is that when in
doubt, stakeholder conflicts should always be resolved in favour of the customer.
Assess the environment
Identify all the relevant stakeholders. Because any of these stakeholders could derail the project,
you need to consider their particular interest in the project.
• Once all relevant stakeholders are identified, try to determine where the power lies.
• In the vast cast of characters, who counts most?
• Whose actions will have the greatest impact?
Identify goals
After determining who the stakeholders are, identify their goals.
• What is it that drives them?
• What is each after?
• Are there any hidden agendas or goals that are not openly articulated?
• What are the goals of the stakeholders who hold the power? These deserve special attention.
Define the problem
• The facts that constitute the problem should be isolated and closely examined.
• The question “What is the real situation?” should be raised over and over.
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Culture of Stakeholders
When project stakeholders do not share a common culture, project management must adapt its organi-
zations and work processes to cope with cultural differences. The following are three major aspects of
cultural difference that can affect a project:
1. Communications
2. Negotiations
3. Decision making
Communication is perhaps the most visible manifestation of culture. Project managers encounter cultural
differences in communication in language, context, and candor.
Language is clearly the greatest barrier to communication. When project stakeholders do not share
the same language, communication slows down and is often filtered to share only information that is
deemed critical.
The barrier to communication can influence project execution where quick and accurate exchange of
ideas and information is critical.
The interpretation of information reflects the extent that context and candor influence cultural expres-
sions of ideas and understanding of information. In some cultures, an affirmative answer to a question
does not always mean yes. The cultural influence can create confusion on a project where project stake-
holders represent more than one culture.
Example: Culture Affects Communication in Mumbai
A project management consultant from the United States was asked to evaluate the effectiveness of a
U.S. project management team executing a project in Mumbai, India. The project team reported that the
project was on schedule and within budget. After a project review meeting where each of the engineer-
ing leads reported that the design of the project was on schedule, the consultant began informal discus-
sions with individual engineers and began to discover that several critical aspects of the project were
behind schedule. Without a mitigating strategy, the project would miss a critical window in the weather
between monsoon seasons. The information on the project flowed through a cultural expectation to pro-
vide positive information. The project was eventually canceled by the U.S. corporation when the market
and political risks increased.
Not all cultural differences are related to international projects. Corporate cultures and even regional
differences can create cultural confusion on a project.
Example: Cultural Differences between American Regions
On a major project in South America that included project team leaders from seven different countries,
the greatest cultural difference that affected the project communication was between two project leaders
from the United States. Two team members, one from New Orleans and one from Brooklyn, had more
difficulty communicating than team members from Lebanon and Australia.
5. Stakeholder Management 48

Managing Stakeholders
Often there is more than one major stakeholder in the project. An increase in the number of stakeholders
adds stress to the project and influences the project’s complexity level. The business or emotional invest-
ment of the stakeholder in the project and the ability of the stakeholder to influence the project outcomes
or execution approach will also influence the stakeholder complexity of the project. In addition to the
number of stakeholders and their level of investment, the degree to which the project stakeholders agree
or disagree influences the project’s complexity.
A small commercial construction project will typically have several stakeholders. All the building per-
mitting agencies, environmental agencies, and labour and safety agencies have an interest in the project
and can influence the execution plan of the project. The neighbours will have an interest in the architec-
tural appeal, the noise, and the purpose of the building.
Example: Tire Plant in India
A U.S. chemical company chartered a project team to design and build a plant to produce the raw mate-
rials for building truck tires designed for unpaved roads. The plant was to be built in India a few years
after an accident that killed several Indians and involved a different U.S. chemical company. When the
company announced the new project and began to break ground, the community backlash was so strong
that the project was shut down. A highly involved stakeholder can significantly influence your project.
Example: Wind Turbine on a College Campus
A small college in South Carolina won a competitive grant to erect and operate a wind turbine on cam-
pus. The engineering department submitted the grant as a demonstration project for engineering students
to expose students to wind technology. The campus facilities department found only one location for the
wind turbine that would not disrupt the flow of traffic on campus. The engineering department found
that location unacceptable for students who had to maintain the wind turbine. The county construction
permitting department had no policies for permitting a wind turbine and would not provide a building
permit. The college had to go to the county council and get an exception to county rules. The market-
ing department wanted the wind turbine placed in a highly visible location to promote the innovative
approach of the college.
Each of the college’s stakeholders had a legitimate interest in the location of the wind turbine. The
number of stakeholders on the project, multiplied by their passion for the subject and the lack of agree-
ment on the location, increased the complexity of the project. Significant time and resources of a project
will be dedicated to identifying, understanding, and managing client expectations.
Example: Stakeholders and a Bridge Project
The Department of Highways chartered a project to upgrade a number of bridges that crossed the inter-
state in one of the larger cities in South Carolina. The closing of these bridges severely impacted traf-
fic congestion, including a large shopping mall. The contract included provisions for minimizing the
impact on the traffic and communities near the construction areas. This provision allowed businesses or
interested parties to review the project schedule and make suggestions that would lessen the impact of
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the construction. The project leadership invested significant time and resources in developing alignment
among the various political stakeholders on the project approach and schedule.
Relationship Building Tips
Take the time to identify all stakeholders before starting a new project. Include those who are impacted
by the project, as well as groups with the ability to impact the project. Then, begin the process of building
strong relationships with each one using the following method.
• Analyze stakeholders: Conduct a stakeholder analysis, or an assessment of a project’s key
participants, and how the project will affect their problems and needs. Identify their individ-
ual characteristics and interests. Find out what motivates them, as well as what provokes
them. Define roles and level of participation, and determine if there are conflicts of interest
among groups of stakeholders.
• Assess influence: Measure the degree to which stakeholders can influence the project. The
more influential a stakeholder is, the more a project manager will need their support. Think
about the question, “What’s in it for them?” when considering stakeholders. Knowing what
each stakeholder needs or wants from the project will enable the project manager to gauge his
or her level of support. And remember to balance support against influence. Is it more impor-
tant to have strong support from a stakeholder with little influence, or lukewarm support from
one with a high level of influence?
• Understand their expectations: Nail down stakeholders’ specific expectations. Ask for clar-
ification when needed to be sure they are completely understood.
• Define “success”: Every stakeholder may have a different idea of what project success looks
like. Discovering this at the end of the project is a formula for failure. Gather definitions up
front and include them in the objectives to help ensure that all stakeholders will be supportive
of the final outcomes.
• Keep stakeholders involved: Don’t just report to stakeholders. Ask for their input. Get to
know them better by scheduling time for coffee, lunch, or quick meetings. Measure each
stakeholder’s capacity to participate and honour time constraints.
• Keep stakeholders informed: Send regular status updates. Daily may be too much; monthly
is not enough. One update per week is usually about right. Hold project meetings as required,
but don’t let too much time pass between meetings. Be sure to answer stakeholders’ ques-
tions and emails promptly. Regular communication is always appreciated – and may even
soften the blow when you have bad news to share.
These are the basics of building strong stakeholder relationships. But as in any relationship, there are
subtleties that every successful project manager understands – such as learning the differences between
and relating well to different types stakeholders.
How to Relate to Different Types of Stakeholders
By conducting a stakeholder analysis, project managers can gather enough information on which to build
strong relationships – regardless of the differences between them. For example, the needs and wants of
5. Stakeholder Management 50

a director of marketing will be different from those of a chief information officer. Therefore, the project
manager’s engagement with each will need to be different as well.
Stakeholders with financial concerns will need to know the potential return of the project’s outcomes.
Others will support projects if there is sound evidence of their value to improving operations, boosting
market share, increasing production, or meeting other company objectives.
Keep each stakeholder’s expectations and needs in mind throughout each conversation, report or
email, no matter how casual or formal the communication may be. Remember that the company’s inter-
ests are more important than any individual’s – yours or a stakeholder’s. When forced to choose between
them, put the company’s needs first.
No matter what their needs or wants, all stakeholders will respect the project manager who:
• Is always honest, even when telling them something they don’t want to hear
• Takes ownership of the project
• Is predictable and reliable
• Stands by his or her decisions
• Takes accountability for mistakes
Supportive Stakeholders are Essential to Project Success
Achieving a project’s objectives takes a focused, well-organized project manager who can engage with
a committed team and gain the support of all stakeholders. Building strong, trusting relationships with
interested parties from the start can make the difference between project success and failure.
Tools to Help Stakeholder Management
There are many project decelerators, among them lack of stakeholder support. Whether the stakeholders
support your project or not, if they are important to your project, you must secure their support. How do
you do that?
First, you must identify who your stakeholders are. Just because they are important in the organization
does not necessarily mean they are important to your project. Just because they think they are important
does not mean they are. Just because they don’t think they need to be involved does not mean they do
not have to be. The typical suspects: your manager, your manager’s manager, your client, your client’s
manager, any SME (subject matter expert) whose involvement you need, and the board reviewing and
approving your project. Note that in some situations there are people who think they are stakeholders.
From your perspective they may not be, but be careful how you handle them. They could be influential
with those who have the power to impact your project. Do not dismiss them out of hand.
Second, you need to determine what power they have and what their intentions toward your project
are. Do they have the power to have an impact on your project? Do they support or oppose you? What
strategies do you follow with them?
Third, what’s the relationship among stakeholders? Can you improve your project’s chances by work-
ing with those who support you to improve the views of those who oppose you? Table 5.1 summarizes
the options based on an assessment of your stakeholders’ potential for cooperation and potential for
threat.
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Table 5.1 Stakeholder Analysis (Solera, 2009)
Low threat potential High threat potential
Low potential for cooperation
Type: Marginal
Strategy: Monitor
Type: Non-supportive
Strategy: Defend
High potential for cooperation
Type: Supportive
Strategy: Involve
Type: Mixed blessing
Strategy: Collaborative
Now that you have this information, you can complete a stakeholder analysis template (Table 5.2) that
will help you define your strategies to improve their support:
Table 5.2 Stakeholder Analysis Template (Solera, 2009)
Stakeholder
Names and
Roles
How
important?
(Low – Med –
High)
Current level of
support? (Low –
Med – High)
What do you
want from
stakeholders?
What is
important to
stakeholders?
How could
stakeholders block
your efforts?
What is your strategy for
enhancing stakeholder
support?
Finally, a key piece of your stakeholder management efforts is constant communication to your stake-
holders. Using the information developed above, you should develop a communications plan that secures
your stakeholders’ support. The template in Figure 5.2 can be used.
Figure 5.2 Stakeholder Communication Template [Image description]
5. Stakeholder Management 52

References
Solera, J. (2009). Project Decelerators – Lack of Stakeholder Support. Silicon Valley Project Manage-
ment. Retrieved from https://svprojectmanagement.com/project-decelerators-lack-of-stakeholder-sup-
port.
Image descriptions
Figure 5.2 Stakeholder Communication Template
The stakeholder analysis template has six fields plus a table to be filled out. The lines ask for: the pro-
ject scope, key messages, communication goals, communication teams, project team, and other stake-
holders. Then, there is a table with seven columns where you can track the communication plan. The
column headers of this table are: communication date, deliverable, audience, message, action item or
FYI (info?), plans, and status. [Return to Figure 5.2]
Text Attributions
This chapter of Project Management is a derivative of the following texts:
• Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution).
• Project Decelerators – Lack of Stakeholder Support by Jose Solera. © CC BY (Attribution).
• How to Build Relationships with Stakeholders by Erin Palmer. © CC BY (Attribution).
• Project Management From Simple to Complex by Russel Darnall, John Preston, Eastern
Michigan University. © CC BY (Attribution).
Media Attributions
• Project Stakeholders by Barron & Barron Project Management for Scientists and Engineers
© CC BY (Attribution)
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6. Culture and Project Management
What Is Organizational Culture?
When working with internal and external customers on a project, it is essential to pay close attention to
relationships, context, history, and the corporate culture. Corporate culture refers to the beliefs, attitudes,
and values that the organization’s members share and the behaviours consistent with them (which they
give rise to). Corporate culture sets one organization apart from another, and dictates how members of
the organization will see you, interact with you, and sometimes judge you. Often, projects too have a
specific culture, work norms, and social conventions.
Some aspects of corporate culture are easily observed; others are more difficult to discern. You can
easily observe the office environment and how people dress and speak. In one company, individuals
work separately in closed offices; in another, teams may work in a shared environment. The more subtle
components of corporate culture, such as the values and overarching business philosophy, may not be
readily apparent, but they are reflected in member behaviours, symbols, and conventions used.
Project Manager’s Checklist
Once the corporate culture has been identified, members should try to adapt to the frequency, formality,
and type of communication customary in that culture. This adaptation will strongly affect project mem-
bers’ productivity and satisfaction internally, as well as with the client organization.
• Which stakeholders will make the decision in this organization on this issue? Will your pro-
ject decisions and documentation have to go up through several layers to get approval? If so,
what are the criteria and values that may affect acceptance there? For example, is being on
schedule the most important consideration? Cost? Quality?
• What type of communication among and between stakeholders is preferred? Do they want
lengthy documents? Is “short and sweet” the typical standard?
• What medium of communication is preferred? What kind of medium is usually chosen for
this type of situation? Check the files to see what others have done. Ask others in the organi-
zation.
• What vocabulary and format are used? What colours and designs are used (e.g., at Hewlett-
Packard, all rectangles have curved corners)?
Project Team Challenges
Today’s globally distributed organizations (and projects) consist of people who have differing “world-
views.” Worldview is a looking glass through which people see the world as Bob Shebib describes: “[It
is] a belief system about the nature of the universe, its perceived effect on human behaviour, and one’s
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place in the universe. Worldview is a fundamental core set of assumptions explaining cultural forces, the
nature of humankind, the nature of good and evil, luck, fate, spirits, the power of significant others, the
role of time, and the nature of our physical and natural resources” (Shebib, 2003, p. 296).
If, for example, a Canadian manager is sent to India to manage an R&D team or a joint venture, they
are likely to have to “[cope] with eco-shock or the physiological, psychological, and social reaction to a
new assignment ecology.” Hanging a shingle in a fluid and culturally diverse organization, project team,
and work culture, a project manager may find new working relationships and hidden challenges have
significant implications for performance and knowledge exchange – for the manager and colleagues at
home and in the host country.
In most situations, there is simply no substitute for having a well-placed person from the host culture
to guide the new person through the cultural nuances of getting things done. In fact, if this “intervention”
isn’t present, it is likely to affect the person’s motivation or desire to continue trying to break through
the cultural (and other) barriers. Indeed, optimal effectiveness in such situations requires learning of cul-
tures in developing countries or international micro-cultures and sharing perceptions among the cultur-
ally diverse task participants on how to get things done. Project leaders require sensitivity and awareness
of multicultural preferences. The following broad areas should be considered:
• Individual identity and role within the project versus family of origin and community
• Verbal and emotional expressiveness
• Relationship expectations
• Style of communication
• Language
• Personal priorities, values, and beliefs
• Time orientation
There are many interpersonal dynamics and intra-project challenges faced by a globally distributed team.
Individual members and the team itself requires important social supports to mitigate uncertainty, con-
flict, motivational challenges, culture shock, and the more-encompassing eco-shock that comes from
facing head-on the unfamiliar and diverse situations consistent with a different cultural and geographi-
cally distributed context.
Diverse and globally distributed project teams (i.e., different ethnic cultures, genders, ages, and func-
tional capabilities), often working on complex projects spanning multiple time zones, geography, and
history, and operating with tight deadlines in cost-conscious organizations, need to make time and
resources available to physically meet each other, and connect (at the very least) at a formal “kick-
off” meeting. Especially when working with team members from high-context cultures, it is essential to
meet face-to-face, discover member’s individual identities and cultural preferences, share professional
knowledge and personal stories, and observe critical verbal and non-verbal cues (that may not easily be
observed online, or on the telephone). This is key to establishing a safer climate and building trust for
stronger relationships among both team members and management.
Dealing with Conflict
The question isn’t whether, when, or with what frequency conflict will occur among intercultural team
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members — or what will create the conflict. If a team wants to overcome (or harness) conflict for effec-
tiveness and productivity, the question is how to navigate and resolve the conflicts. Conflict that springs
from diversity can actually assist the team in completing complex problem solving. However, if not nav-
igated successfully, it can create relationship strain and derail achievement due to increased difficulties
in communication and coordination.
As the global marketplace continues its rapid expansion, researchers are increasingly turning their
attention to the issue of conflict management. Differing social and cultural values don’t necessarily
increase the number of conflicts a team will experience, but they can have an impact on how conflicts
are managed and resolved. Cultural awareness is needed for understanding and appreciating others’ val-
ues and behavioural norms. Without that, foreign assignments will become an overwhelming challenge.
Self-awareness and skill development can aid in resolving the problematic conflict arising from cultural
differences to help a team maintain good relations and remain productive.
References
Shebib, B. (2003). Choices: Interviewing and Counselling Skills for Canadians, 2nd edition, Pearson
Education Canada Inc.
Text Attributions
This chapter of Project Management is a derivative of the following text:
• Project Management for Skills for All Careers by Project Management Open Resources and
TAP-a-PM. © Creative Commons Attribution 3.0 Licence.
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7. Project Initiation
The project initiation phase is the first phase within the project management life cycle, as it involves
starting up a new project. Within the initiation phase, the business problem or opportunity is identified, a
solution is defined, a project is formed, and a project team is appointed to build and deliver the solution
to the customer. A business case is created to define the problem or opportunity in detail and identify a
preferred solution for implementation. The business case includes:
• A detailed description of the problem or opportunity with headings such as Introduction,
Business Objectives, Problem/Opportunity Statement, Assumptions, and Constraints
• A list of the alternative solutions available
• An analysis of the business benefits, costs, risks, and issues
• A description of the preferred solution
• Main project requirements
• A summarized plan for implementation that includes a schedule and financial analysis
The project sponsor then approves the business case, and the required funding is allocated to proceed
with a feasibility study. It is up to the project sponsor to determine if the project is worth undertaking and
whether the project will be profitable to the organization. The completion and approval of the feasibility
study triggers the beginning of the planning phase. The feasibility study may also show that the project
is not worth pursuing and the project is terminated; thus the next phase never begins.
All projects are created for a reason. Someone identifies a need or an opportunity and devises a project
to address that need. How well the project ultimately addresses that need defines the project’s success or
failure.
The success of your project depends on the clarity and accuracy of your business case and whether
people believe they can achieve it. Whenever you consider past experience, your business case is more
realistic; and whenever you involve other people in the business case’s development, you encourage
their commitment to achieving it.
Often the pressure to get results encourages people to go right into identifying possible solutions with-
out fully understanding the need or what the project is trying to accomplish. This strategy can create a
lot of immediate activity, but it also creates significant chances for waste and mistakes if the wrong need
is addressed. One of the best ways to gain approval for a project is to clearly identify the project’s objec-
tives and describe the need or opportunity for which the project will provide a solution. For most of us,
being misunderstood is a common occurrence, something that happens on a daily basis. At the restau-
rant, the waiter brings us our dinner and we note that the baked potato is filled with sour cream, even
though we expressly requested “no sour cream.” Projects are filled with misunderstandings between cus-
tomers and project staff. What the customer ordered (or more accurately what they think they ordered)
is often not what they get. The cliché is “I know that’s what I said, but it’s not what I meant.” Figure 7.1
demonstrates the importance of establishing clear objectives.
The need for establishing clear project objectives cannot be overstated. An objective or goal lacks
clarity if, when shown to five people, it is interpreted in multiple ways. Ideally, if an objective is clear,
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you can show it to five people who, after reviewing it, hold a single view about its meaning. The best
way to make an objective clear is to state it in such a way that it can be verified. Building in ways to
measure achievement can do this. It is important to provide quantifiable definitions to qualitative terms.
Figure 7.1 Project Management.
For example, an objective of the team principle (project manager) of a Formula 1 racing team may be
that their star driver, “finish the lap as fast as possible.” That objective is filled with ambiguity.
How fast is “fast as possible?” Does that mean the fastest lap time (the time to complete one lap) or
does it mean the fastest speed as the car crosses the start/finish line (that is at the finish of the lap)?
By when should the driver be able to achieve the objective? It is no use having the fastest lap after the
race has finished, and equally the fastest lap does not count for qualifying and therefore starting position,
if it is performed during a practice session.
The ambiguity of this objective can be seen from the following example. Ferrari’s Michael Schu-
macher achieved the race lap record at the Circuit de Monaco of 1 min 14.439 sec in 2004 (Figure 7.2).
However, he achieved this on lap 23 of the race, but crashed on lap 44 of a 77-lap race. So while he
achieved a fastest lap and therefore met the specific project goal of “finish the lap as fast as possible,”
it did not result in winning the race, clearly a different project goal. In contrast, the fastest qualifying
time at the same event was by Renault’s Jarno Trulli (1 min 13.985 sec), which gained him pole position
for the race, which he went on to win (Figure 7.2). In his case, he achieved the specific project goal of
“finish the lap as fast as possible,” but also the larger goal of winning the race.
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The objective can be strengthened considerably if it is stated as follows: “To be able to finish the 3.340
km lap at the Circuit de Monaco at the Monaco Grand Prix in 1 min 14.902 sec or less, during qualifying
on May 23, 2009.” This was the project objective achieved by Brawn GP’s Jenson Button (Figure 7.2).
Figure 7.2: Despite achieving
the project goal of the “finish
the lap as fast as possible,”
Ferrari’s Michael
Schumacher crashed 21 laps
later and did not finish the
race (top); Renault’s Jarno
Trulli celebrating his win at
the 2004 Monaco Grand Prix
(middle); Jenson Button took
his Brawn GP car to pole
position at the Monaco Grand
Prix with a lap time of 1 min
14.902 sec. He also went on
to win the race, even though
he did not achieve that lap
time during the race (bottom).
There is still some ambiguity in this objective; for example, it assumes the star driver will be driving
the team’s race car and not a rental car from Hertz. However, it clarifies the team principal’s intent quite
nicely. It should be noted that a clear goal is not enough. It must also be achievable. The team principal’s
goal becomes unachievable, for example, if he changes it to require his star driver to finish the 3.340 km
lap in 30 sec or less.
To ensure the project’s objectives are achievable and realistic, they must be determined jointly by
managers and those who perform the work. Realism is introduced because the people who will do the
work have a good sense of what it takes to accomplish a particular task. In addition, this process assures
some level of commitment on all sides: management expresses its commitment to support the work effort
and workers demonstrate their willingness to do the work.
Imagine an office manager has contracted a painter to paint his office. His goal or objective is to have
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the office painted a pleasing blue colour. Consider the conversation that occurs in Figure 7.3 after the
job was finished.
Figure 7.3: The consequence of not making your objective clear.
[Image Description]
This conversation captures in a nutshell the essence of a major source of misunderstandings on projects:
the importance of setting clear objectives. The office manager’s description of how he wanted the room
painted meant one thing to him and another to the painter. As a consequence, the room was not painted
to the office manager’s satisfaction. Had his objective been more clearly defined, he probably would
have had what he wanted.
Comparing Options Using a Weighted Decision Matrix
Sometimes we have multiple options to choose from when determining requirements and decid-
ing which project to work on. To select the best option, we can use tools such as a weighted decision
matrix.
A basic decision matrix consists of establishing a set of criteria for options that are scored and
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summed to gain a total score that can then be ranked. Importantly, it is not weighted to allow a quick
selection process.
A weighted decision matrix operates in the same way as the basic decision matrix but introduces the
concept of weighting the criteria in order of importance. The resultant scores better reflect the impor-
tance to the decision maker of the criteria involved. The more important a criterion, the higher the
weighting it should be given. Each of the potential options is scored and then multiplied by the weight-
ing given to each of the criteria to produce a result.
The advantage of the weighted decision matrix is that subjective opinions about one alternative versus
another can be made more objective. Another advantage of this method is that sensitivity studies can be
performed. An example of this might be to see how much your opinion would have to change in order
for a lower-ranked alternative to outrank a competing alternative.
A weighted decision matrix therefore allows decision makers to structure and solve their problem
by:
1. Specifying and prioritizing their needs with a list a criteria; then
2. Evaluating, rating, and comparing the different solutions; and
3. Selecting the best matching solution.
A weighted decision matrix is a decision tool used by decision makers.
A decision matrix is basically an array presenting on one axis a list of alternatives, also called options
or solutions, that are evaluated regarding, on the other axis, a list of criteria, which are weighted depend-
ing on their respective importance in the final decision to be taken.
Weighted Decision Matrix Sample
The example in Figure 7.4 shows a weighted decision matrix that compared three options for a web
development project (SJS Enterprises). This method is especially useful when choosing purchase alter-
natives and comparing them against specific desirable system requirements.
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Figure 7.4: Weighted Decision Matrix for Game Delivery Project. [Image description]
Financial Considerations
In many new project endeavors, we need to find out if our project is financially feasible. We do that by
using net present value (NPV), rate of return (ROI), and payback analysis.
7. Project Initiation 62

NPV
A dollar earned today is worth more than a dollar earned one or more years from now. The NPV of a
time series of cash flows, both incoming and outgoing, is defined as the sum of the present values (PVs)
of the individual cash flows of the same entity.
In the case when all future cash flows are incoming and the only outflow of cash is the purchase price,
the NPV is simply the PV of future cash flows minus the purchase price (which is its own PV). NPV
is a standard method for using the time value of money to appraise long-term projects. Used for capital
budgeting and widely used throughout economics, finance, and accounting, it measures the excess or
shortfall of cash flows, in present value terms, once financing charges are met.
NPV can be described as the “difference amount” between the sums of discounted cash inflows and
cash outflows. It compares the present value of money today to the present value of money in the future,
taking inflation and returns into account.
The NPV of a sequence of cash flows takes as input the cash flows and a discount rate or discount
curve and outputs a price.
Each cash inflow/outflow is discounted back to its present value (PV). Then they are summed. There-
fore NPV is the sum of all terms.
where
• t is the time of the cash flow
• i is the discount rate (the rate of return that could be earned on an investment in the financial
markets with similar risk; the opportunity cost of capital)
• Rt is the net cash flow (i.e., cash inflow − cash outflow, at time t).
NPV is an indicator of how much value an investment or project adds to the firm. With a particular
project, if NPV is a positive value, the project is in the status of positive cash inflow in the time t. If
NPV is a negative value, the project is in the status of discounted cash outflow in the time t. Sometimes
risky projects with a positive NPV could be accepted. This does not necessarily mean that they should
be undertaken since NPV at the cost of capital may not account for opportunity cost (i.e., comparison
with other available investments). In financial theory, if there is a choice between two mutually exclu-
sive alternatives, the one yielding the higher NPV should be selected.
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Table 7.1 Net Present Value
If… It means… Then…
NPV > 0 The investment would add value to thefirm. The project may be accepted.
NPV < 0 The investment would subtract valuefrom the firm. The project should be rejected. NPV = 0 The investment would neither gain norlose value for the firm. We should be indifferent in the decision whether to accept or reject the project. This project adds no monetary value. Decision should be based on other criteria (e.g., strategic positioning or other factors not explicitly included in the calculation). Table 7.2: Present Value Table (Take note of the decreasing value of money as the period increases from 1 to 10 years.) Periods (years) 6% 8% 10% 12% 14% 1 0.943 0.926 0.909 0.893 0.877 2 0.890 0.857 0.826 0.797 0.769 3 0.840 0.794 0.751 0.712 0.675 4 0.792 0.735 0.683 0.636 0.592 5 0.747 0.681 0.621 0.567 0.519 6 0.705 0.630 0.564 0.507 0.456 7 0.665 0.583 0.513 0.452 0.400 8 0.627 0.540 0.467 0.404 0.351 9 0.592 0.500 0.424 0.361 0.308 10 0.558 0.463 0.386 0.322 0.270 NPV Example The following example is calculating the NPV of a project at a discount rate of 12%. The project takes five years to complete with given benefits and costs for each year. In Year 0, there is no benefit to the organization, just an initial cost of $75,000 with no discount rate. In Year 1, the discount rate is 89%. This means that at 12% assumed interest, the time value of money says that the $1 today is worth $0.89 in one year, $0.80 in two years, etc. By calculating the NPV for the benefits and the costs, you subtract the NPV of all costs from the NPV of all benefits. The final result is a positive value of $105,175. 7. Project Initiation 64 Table 7.3: Table of NPV of costs and benefits. ROI Return on investment (ROI) is a performance measure used to evaluate the efficiency of an investment or to compare the efficiency of a number of different investments. It is one way of considering profits in relation to capital invested. This is calculated by subtracting the project’s costs from the benefits and then dividing by the costs. For example, if you invest $100 and your investment is worth $110 next year, the ROI is (110 − 100) ÷ 100 = 0.1 or a 10% return. In our example: (306,425 − 201,175) ÷ 201,175 = 0.52, or a 52% return. That’s considered a nice return on investment. Payback Analysis Payback analysis is important in determining the amount of time it will take for a project to recoup its 65 2nd Edition https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2013/05/12-2-2-NPV-Example https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2013/05/12-2-2-NPV-Example investments. This is the point at which the benefits start to outweigh the costs. The best way to see that is by charting the cumulative benefits and costs. As you can see in the example in Figure 7.5, the cumu- lative benefits outweigh the cumulative costs in the second year. Figure 7.5: Payback Analysis Chart Project Charter A project charter, project definition, or project statement is a statement of the scope, objectives, and participants in a project. It provides a preliminary delineation of roles and responsibilities, outlines the project objectives, identifies the main stakeholders, and defines the authority of the project manager. It serves as a reference of authority for the future of the project. The purpose of a project charter is to: • Provide an understanding of the project, the reason it is being conducted, and its justification • Establish early on in the project the general scope • Establish the project manager and his or her authority level. A note of who will review and approve the project charter must be included. 7. Project Initiation 66 https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2013/05/12-2-4-Payback-Analysis https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2013/05/12-2-4-Payback-Analysis Example of a Project Charter Sample Project Charter Identification Section List the project name, the date of the current version of the project charter, the sponsor’s name and authority, and the project manager’s name. Example: Project Name: Rice University Computer Store Creation Project Sponsor: Jane Ungam, Facilities Manager Date: Jan 12, 2010 Revision: 1 Project Manager: Fred Rubens Overview of the Project Provide a simple but precise statement of the project. Example: Rice University is planning to create a store to sell computer supplies. Objective State the objectives of the project clearly and ensure they contain a measure of how to assess whether they have been achieved. The statement should be realistic and should follow the SMART protocol: • Specific (get into the details) • Measurable (use quantitative language so that you know when you are finished) • Acceptable (to stakeholders) • Realistic (given project constraints) • Time based (deadlines, not durations) Example: The objective of this project is to implement a campus store that is ready to sell computer supplies such as memory sticks, mouse pads, and cables, when class starts in August 2010, with enough inventory to last through the first two weeks of classes. Scope Specify the scope of the project by identifying the domain or range of requirements. Example: The scope of Rice’s school supplies store project includes the activities listed below: 1. Determine what supplies will be sold in the store. 2. Establish competitive prices for the computer supplies. 67 2nd Edition 3. Source and secure supply vendors. 4. Establish marketing, procurement, operations, and any other necessary departments, schools, cen- tres, and institutes. It is equally important to include in the scope what is not included in the project. Example: The scope of the project does not include: • Development of any other school store departments • Store design or construction Major Milestones List all major milestones needed to ensure successful project completion. Example: • All vendors selected • Contracts or orders completed with all vendors • Supplies delivered to the store • Pricing determined Major Deliverables List and describe the major deliverables that will result from the project. Example: • Supplies procured • Operations, procurement, marketing, and other teams established • Store supplies stocked and displayed • Store staffing completed, including work schedules • Store operations policies, including hours of operation, established Assumptions Outline the assumptions made in creating the project. An assumption is a fact you are unsure of but can either confirm at a later time or are simply stating so that the project can proceed as if the statement were true. Example: • Only computer supplies will be sold in the store. • Customers will be the Rice University student body and faculty. • Rice University students will manage the project and be responsible for ongoing operations. • A store sponsor from the university faculty or staff will be assigned to mentor students and pro- vide oversight. • Store hours of operation will be approved by the Rice University students or store sponsor. 7. Project Initiation 68 • Supplier deliveries will be arranged or the store sponsor will pick them up with students. • Students will be empowered to contact vendors for order placement and inquiries via telephone. Constraints Define any and all constraints on the project or those working on the project. This is an important part of the project charter. A constraint is anything that limits the range of solutions or approaches. Example: • Student availability to meet for project planning is limited to school hours. • Software is not available for project planning and control. Business Need or Opportunity (Benefits) Provide a concise statement of the business need or opportunity that led to the creation of the project. Why was it created? What are the benefits? How does the project contribute to organizational objectives? Example: The goal of this project is to provide income for the Rice Student Centre while supplying nec- essary items to students and faculty at competitive prices. The school store will be a convenience to students since necessary supplies will be available on campus. This will help students learn to manage their personal supplies. Preliminary Cost for the Project Provide a statement indicating how the cost of the project will be defined and controlled. Example: The procurement team will assemble a proposal based on expected costs for review by the Dean of Undergraduate Studies. Project Risks A risk is anything uncertain that may occur that will reduce or decrease the chances of project success. Example: 1. There is a state election coming and the new government may change the taxation rules for pri- vate university retail outlets. 2. The cloud is changing student demand for media such as flash drives in somewhat unpredictable ways. If this happens faster than we forecast, we may be building a store that students don’t need. 3. Deliveries of store shelves, etc. will be delayed if a major hurricane occurs. Project Charter Acceptance Provide the names, titles, and signature lines of the individuals who will sign off on the project charter. Project Stakeholders Provide the key stakeholders and team members by function, name, and role. 69 2nd Edition Function Name Role Project Manager Monica Styles Leads the project Sponsor Adrienne Watt Project sponsor etc. Image Descriptions Figure 7.3 image description: A conversation between an office manager and a contractor. Office manager: Not only did you paint my office walls blue, but you painted the ceiling blue as well. Contractor: You asked me to paint the room blue, and now you’ve got a blue room. Office manager: But the ceiling is oppressive! Ceilings should never be the same colour as the walls. They should always be a lighter colour. Contractor: You asked for a blue room. You’re lucky I didn’t paint the floor blue as well. [Return to Figure 7.3] Figure 7.4 image description: 7. Project Initiation 70 Weighted Decision Matrix for Game Delivery System Criteria Weight SJS Enterprises Game Access DVD Link Educational 15% 90 0 0 Sports-related 15% 90 90 90 Secure payment area with the ability to use Payplay, bank payments, cheques, and school payment systems as a payment source. 10% 90 50 50 Live Support 15% 90 0 0 Search Option 5% 50 50 30 Games available for all platforms currently on the market including school learning systems. 10% 60 30 30 Longer rental periods (1 to 2 weeks) 5% 40 20 40 Sidebar with categories, such as most popular, multiplayer, and just released. 5% 50 50 20 Registered customers must be able to order the videos, track delivery, return videos, and be able to provide reviews of views. 10% 50 30 30 Age/grade appropriate section (can isolate certain games to certain ages or grade levels) 10% 70 5 0 Weighted project scores: 100% 75.4 31 29 [Return to Figure 7.4] 71 2nd Edition Text Attributions This chapter of Project Management is a derivative of the following works: • Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution). • Decision Matrix Method, Project Charter, and Net Present Value by Wikipedia. © CC BY-SA (Attribution-ShareAlike). Media Attributions • Project Management by Andreas Cappell © CC BY-NC-SA (Attribution NonCommercial ShareAlike) • Figure 7.2 by Cord Rodefeld (top), ph-stop (middle), Evoflash (bottom) © CC BY-SA (Attri- bution ShareAlike) • Unclear Objective Comic by Barron & Barron Project Management for Scientists and Engi- neers © CC BY (Attribution) • Weighted Decision Matrix for Game Delivery by Adrienne Watt © CC BY (Attribution) • NPV Example by Adrienne Watt © CC BY (Attribution) • Payback Analysis Chart by Adrienne Watt © CC BY (Attribution) 7. 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Overview of Project Planning After the project has been defined and the project team has been appointed, you are ready to enter the second phase in the project management life cycle: the detailed project planning phase. Project planning is at the heart of the project life cycle, and tells everyone involved where you’re going and how you’re going to get there. The planning phase is when the project plans are documented, the project deliverables and requirements are defined, and the project schedule is created. It involves creating a set of plans to help guide your team through the implementation and closure phases of the project. The plans created during this phase will help you manage time, cost, quality, changes, risk, and related issues. They will also help you control staff and external suppliers to ensure that you deliver the project on time, within budget, and within schedule. The project planning phase is often the most challenging phase for a project manager, as you need to make an educated guess about the staff, resources, and equipment needed to complete your project. You may also need to plan your communications and procurement activities, as well as contract any third- party suppliers. The purpose of the project planning phase is to: • Establish business requirements • Establish cost, schedule, list of deliverables, and delivery dates • Establish resources plans • Obtain management approval and proceed to the next phase The basic processes of project planning are: • Scope planning – specifying the in-scope requirements for the project to facilitate creating the work breakdown structure • Preparation of the work breakdown structure – spelling out the breakdown of the project into tasks and sub-tasks • Project schedule development – listing the entire schedule of the activities and detailing their sequence of implementation • Resource planning – indicating who will do what work, at which time, and if any special skills are needed to accomplish the project tasks • Budget planning – specifying the budgeted cost to be incurred at the completion of the pro- ject • Procurement planning – focusing on vendors outside your company and subcontracting • Risk management – planning for possible risks and considering optional contingency plans and mitigation strategies • Quality planning – assessing quality criteria to be used for the project • Communication planning – designing the communication strategy with all project stakehold- 73 ers The planning phase refines the project’s objectives, which were gathered during the initiation phase. It includes planning the steps necessary to meet those objectives by further identifying the specific activ- ities and resources required to complete the project. Now that these objectives have been recognized, they must be clearly articulated, detailing an in-depth scrutiny of each recognized objective. With such scrutiny, our understanding of the objective may change. Often the very act of trying to describe some- thing precisely gives us a better understanding of what we are looking at. This articulation serves as the basis for the development of requirements. What this means is that after an objective has been clearly articulated, we can describe it in concrete (measurable) terms and identify what we have to do to achieve it. Obviously, if we do a poor job of articulating the objective, our requirements will be misdirected and the resulting project will not represent the true need. Users will often begin describing their objectives in qualitative language. The project manager must work with the user to provide quantifiable definitions to those qualitative terms. These quantifiable cri- teria include schedule, cost, and quality measures. In the case of project objectives, these elements are used as measurements to determine project satisfaction and successful completion. Subjective evalua- tions are replaced by actual numeric attributes. Example 1 A web user may ask for a fast system. The quantitative requirement should be all screens must load in under three seconds. Describing the time limit during which the screen must load is specific and tangi- ble. For that reason, you’ll know that the requirement has been successfully completed when the objec- tive has been met. Example 2 Let’s say that your company is going to produce a holiday batch of eggnog. Your objective statement might be stated this way: Christmas Cheer, Inc. will produce two million cases of holiday eggnog, to be shipped to our distributors by October 30, at a total cost of $1.5 million or less. The objective criteria in this statement are clearly stated and successful fulfillment can easily be measured. Stakeholders will know that the objectives are met when the two million cases are produced and shipped by the due date within the budget stated. When articulating the project objectives you should follow the SMART rule: • Specific – get into the details. Objectives should be specific and written in clear, concise, and understandable terms. • Measurable – use quantitative language. You need to know when you have successfully com- pleted the task. • Acceptable – agreed with the stakeholders. • Realistic – in terms of achievement. Objectives that are impossible to accomplish are not realistic and not attainable. Objectives must be centred in reality. • Time based – deadlines not durations. Objectives should have a time frame with an end date 8. Overview of Project Planning 74 assigned to them. If you follow these principles, you’ll be certain that your objectives meet the quantifiable criteria needed to measure success. Text Attributions This chapter of Project Management is a derivative of the following text: • Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution). 75 2nd Edition https://cnx.org/contents/XpF315mY@11.6:nYhV-4VB@4/Becoming-an-Accidental-Project-Manager http://cnx.org/content/col11120/latest https://creativecommons.org/licenses/by/3.0/ 9. Scope Planning You always want to know exactly what work has to be done before you start it. You have a collection of team members, and you need to know exactly what they’re going to do to meet the project’s objectives. The scope planning process is the very first thing you do to manage your scope. Project scope planning is concerned with the definition of all the work needed to successfully meet the project objectives. The whole idea here is that when you start the project, you need to have a clear picture of all the work that needs to happen on your project, and as the project progresses, you need to keep that scope up to date and written down in the project’s scope management plan. Defining the Scope You already have a head start on refining the project’s objectives in quantifiable terms, but now you need to plan further and write down all the intermediate and final deliverables that you and your team will pro- duce over the course of the project. Deliverables include everything that you and your team produce for the project (i.e., anything that your project will deliver). The deliverables for your project include all of the products or services that you and your team are performing for the client, customer, or sponsor. They include every intermediate document, plan, schedule, budget, blueprint, and anything else that will be made along the way, including all of the project management documents you put together. Project deliv- erables are tangible outcomes, measurable results, or specific items that must be produced to consider either the project or the project phase completed. Intermediate deliverables, like the objectives, must be specific and verifiable. All deliverables must be described in a sufficient level of detail so that they can be differentiated from related deliverables. For example: • A twin engine plane versus a single engine plane • A red marker versus a green marker • A daily report versus a weekly report • A departmental solution versus an enterprise solution One of the project manager’s primary functions is to accurately document the deliverables of the project and then manage the project so that they are produced according to the agreed-on criteria. Deliverables are the output of each development phase, described in a quantifiable way. Project Requirements After all the deliverables are identified, the project manager needs to document all the requirements of the project. Requirements describe the characteristics of the final deliverable, whether it is a product or a service. They describe the required functionality that the final deliverable must have or specific con- ditions the final deliverable must meet in order to satisfy the objectives of the project. A requirement 76 is an objective that must be met. The project’s requirements, defined in the scope plan, describe what a project is supposed to accomplish and how the project is supposed to be created and implemented. Requirements answer the following questions regarding the as-is and to-be states of the business: who, what, where, when, how much, and how does a business process work? Requirements may include attributes like dimensions, ease of use, colour, specific ingredients, and so on. If we go back to the example of the company producing holiday eggnog, one of the major deliv- erables is the cartons that hold the eggnog. The requirements for that deliverable may include carton design, photographs that will appear on the carton, colour choices, etc. Requirements specify what the final project deliverable should look like and what it should do. Requirements must be measurable, testable, related to identified business needs or opportunities, and defined to a level of detail sufficient for system design. They can be divided into six basic categories: functional, non-functional, technical, business, user, and regulatory requirements. Functional Requirements Functional requirements describe the characteristics of the final deliverable in ordinary non-technical language. They should be understandable to the customers, and the customers should play a direct role in their development. Functional requirements are what you want the deliverable to do. Vehicle Example If you were buying vehicles for a business, your functional requirement might be: “The vehicles should be able to take up to a one ton load from a warehouse to a shop.” Computer System Example For a computer system you may define what the system is to do: “The system should store all details of a customer’s order.” The important point to note is that what is wanted is specified and not how it will be delivered. Non-Functional Requirements Non-functional requirements specify criteria that can be used to judge the final product or service that your project delivers. They are restrictions or constraints to be placed on the deliverable and how to build it. Their purpose is to restrict the number of solutions that will meet a set of requirements. Using the vehicle example, the functional requirement is for a vehicle to take a load from a warehouse to a shop. Without any constraints, the solutions being offered might result in anything from a small to a large truck. Non-functional requirements can be split into two types: performance and development. To restrict the types of solutions, you might include these performance constraints: • The purchased trucks should be American-made trucks due to government incentives. • The load area must be covered. • The load area must have a height of at least 10 feet. 77 2nd Edition Similarly, for the computer system example, you might specify values for the generic types of perfor- mance constraints: • The response time for information is displayed on the screen for the user. • The number of hours a system should be available. • The number of records a system should be able to hold. • The capacity for growth of the system should be built in. • The length of time a record should be held for auditing purposes. For the customer records example, the constraints might be: • The system should be available from 9 a.m. to 5 p.m.Monday to Friday. • The system should be able to hold 100,000 customer records initially. • The system should be able to add 10,000 records a year for 10 years. • A record should be fully available on the system for at least seven years. One important point with these examples is that they restrict the number of solution options that are offered to you by the developer. In addition to the performance constraints, you may include some devel- opment constraints. There are three general types of non-functional development constraints: • Time: When a deliverable should be delivered • Resource: How much money is available to develop the deliverable • Quality: Any standards that are used to develop the deliverable, development methods, etc. Technical Requirements Technical requirements emerge from the functional requirements to answer the questions: how will the problem be solved this time and will it be solved technologically and/or procedurally? They specify how the system needs to be designed and implemented to provide required functionality and fulfill required operational characteristics. For example, in a software project, the functional requirements may stipulate that a database system will be developed to allow access to financial data through a remote terminal. The corresponding tech- nical requirements would spell out the required data elements, the language in which the database man- agement system will be written (due to existing knowledge in-house), the hardware on which the system will run (due to existing infrastructure), telecommunication protocols that should be used, and so forth. Business Requirements Business requirements are the needs of the sponsoring organization, always from a management per- spective. Business requirements are statements of the business rationale for the project. They are usually expressed in broad outcomes, satisfying the business needs, rather than specific functions the system 9. Scope Planning 78 must perform. These requirements grow out of the vision for the product that, in turn, is driven by mis- sion (or business) goals and objectives. User Requirements User requirements describe what the users need to do with the system or product. The focus is on the user experience with the system under all scenarios. These requirements are the input for the next devel- opment phases: user-interface design and system test cases design. Regulatory requirements Regulatory requirements can be internal or external and are usually non-negotiable. They are the restric- tions, licenses, and laws applicable to a product or business that are imposed by the government. An Example of Requirements Automated teller machines (ATMs) can be used to illustrate a wide range of requirements (Figure 9.1). What are some of the physical features of these machines, and what kinds of functions do they perform for the bank’s customers? Why did banks put these systems in place? What are the high-level business requirements? Figure 9.1 Automated Teller Machine. The following represents one possible example of each type of requirement as they would be applied to a bank’s external ATM. • ATM functional requirement: The system will enable the user to select whether or not to pro- duce a hard-copy transaction receipt before completing a transaction. • ATM non-functional requirement: All displays will be in white, 14-point Arial text on black background. • ATM technical requirement: The ATM system will connect seamlessly to the existing cus- tomer’s database. • ATM user requirement: The system will complete a standard withdrawal from a personal account, from login to cash, in less than two minutes. 79 2nd Edition • ATM business requirement: By providing superior service to our retail customers, Monumen- tal Bank’s ATM network will allow us to increase associated service fee revenue by 10% annually on an ongoing basis. • ATM regulatory requirement: All ATMs will connect to standard utility power sources within their civic jurisdiction, and be supplied with an uninterrupted power source approved by the company. The effective specification of requirements is one of the most challenging undertakings project managers face. Inadequately specified requirements will guarantee poor project results. Documenting requirements is much more than just the process of writing down the requirements as the user sees them; it should cover not only what decisions have been made, but why they have been made, as well. Understanding the reasoning that was used to arrive at a decision is critical in avoiding repetition. For example, the fact that a particular feature has been excluded, because it is simply not fea- sible, needs to be recorded. If it is not, then the project risks wasted work and repetition, when a stake- holder requests the feature be reinstated during development or testing. Once the requirements are documented, have the stakeholders sign off on their requirements as a con- firmation of what they desire. While the project manager is responsible for making certain the requirements are documented, it does not mean that the project manager performs this task. The project manager enlists the help of all the stakeholders (business analysts, requirement analysts, business process owners, customers and other team members) to conduct the discussions, brain-storming, and interviews, and to document and sign off the requirements. The project manager is responsible only for enabling the process and facilitat- ing it. If the project manager feels that the quality of the document is questionable, his or her duty is to stop the development process. The project manager reviews the requirements, incorporates them into the project documentation library, and uses them as an input for the project plan. Software Requirements Fundamentals This section refers to requirements of “software” because it is concerned with problems to be addressed by software. A software requirement is a property that must be exhibited by software developed or adapted to solve a particular problem. The problem may be to automate part of a task of someone who will use the software, to support the business processes of the organization that has commissioned the software, to correct shortcomings of existing software, to control a device, etc. The functioning of users, business processes, and devices is typically complex. Therefore, the requirements on particular software are typically a complex combination of requirements from different people at different levels of an orga- nization and from the environment in which the software will operate. An essential property of all software requirements is that they be verifiable. It may be difficult or costly to verify certain software requirements. For example, verification of the throughput requirement on a call centre may necessitate the development of simulation software. Both the software requirements and software quality personnel must ensure that the requirements can be verified within the available resource constraints. Requirements have other attributes in addition to the behavioural properties that they express. Com- mon examples include a priority rating to enable trade-offs in the face of finite resources and a status value to enable project progress to be monitored. Typically, software requirements are uniquely identi- fied so that they can be monitored over the entire software life cycle. 9. Scope Planning 80 Measuring Requirements As a practical matter, it is typically useful to have some concept of the volume of the requirements for a particular software product. This number is useful in evaluating the size of a change in requirements, in estimating the cost of a development or maintenance task, or simply in using it as the denominator in other measurements (see Table 9.1). Table 9.1: Measuring Requirements Property Measure Speed • Processed transactions/second • User/Event response time • Screen refresh time Size • K Bytes • Number of RAM chips Ease of use • Training time • Number of help frames Reliability • Mean time to failure • Probability of unavailability • Rate of failure occurence • Availability Robustness • Time to restart after failure • Percentage of events causing failure • Probability of data corruption on failure Portability • Percentage of target dependent statements • Number of target systems Scope Inputs The project manager gathers initial project facts from the project charter. In addition, background infor- mation on the stakeholder’s workplace, existing business model and rules, etc. assist in creating the 81 2nd Edition vision of the final product/service, and consequently, the project scope (see Figure 9.2). Figure 9.2: Scope input-output. [Image description] Techniques Certainly being a seasoned project manager broadens the repertoire of one’s scope planning techniques. An experienced project manager can draw on past experiences with like projects to determine the work that is realistically doable, given time and cost constraints, for a current project. Communication and negotiation skills are a “must-have” as well. Project managers need to educate stakeholders about the project impacts of some requirements. Adding complexity to a project may require more staff, time, and/ or money. It may also have an impact on project quality. Some aspects of the project may be unfeasible – stakeholders need to know this so they can adjust their vision or prepare for future challenges. Gathering requirements is part of scope definition, and it can be done using one or more of following techniques: • Interviews • Focus groups • Facilitated groups such as JAD (joint application development) • Group creativity techniques: brainstorming, nominal groups, delphi, mind map, affinity diag- nostics • Prototyping • Observation • Questions and surveys • Group decision-making techniques: unanimity, majority, plurality, dictatorship Requirements Traceability Matrix The requirements traceability matrix is a table that links requirements to their origin and traces them throughout the project life cycle. The implementation of a requirements traceability matrix helps ensure that each requirement adds business value by linking it to the business and project objectives. It pro- vides a means to track requirements throughout the project life cycle, helping to ensure that requirements 9. Scope Planning 82 https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/Scope-Management-IO https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/Scope-Management-IO approved in the requirements documentation are delivered at the end of the project. Finally, it provides a structure for managing changes to the product scope. This process includes, but is not limited to, track- ing: • Requirements to business needs, opportunities, goals, and objectives • Requirements to project objectives • Requirements to project scope/work breakdown structure deliverables • Requirements to product design • Requirements to product development • Requirements to test strategy and test scenarios • High-level requirements to more detailed requirements Attributes associated with each requirement can be recorded in the requirements traceability matrix. These attributes help to define key information about the requirement. Typical attributes used in the requirements traceability matrix may include a unique identifier, a textual description of the requirement, the rationale for inclusion, owner, source, priority, version, current status (such as active, cancelled, deferred, added, approved), and date completed. Additional attributes to ensure that the requirement has met stakeholders’ satisfaction may include stability, complexity, and acceptance criteria. Matrix Fields These are suggestions only and will vary based on organizational and project requirements. • A unique identification number containing the general category of the requirement (e.g., SYSADM) and a number assigned in ascending order (e.g., 1.0, 1.1, 1.2) • Requirement statement • Requirement source (conference, configuration control board, task assignment, etc.) • Software requirements specification/functional requirements document paragraph number containing the requirement • Design specification paragraph number containing the requirement • Program module containing the requirement • Test specification containing the requirement test • Test case number(s) where requirement is to be tested (optional) • Verification of successful testing of requirements • Modification field (If a requirement was changed, eliminated, or replaced, indicate disposi- tion and authority for modification.) • Remarks 83 2nd Edition Work Breakdown Structure Now that we have the deliverables and requirements well defined, the process of breaking down the work of the project via a work breakdown structure (WBS) begins. The WBS defines the scope of the project and breaks the work down into components that can be scheduled, estimated, and easily moni- tored and controlled. The idea behind the WBS is simple: you subdivide a complicated task into smaller tasks, until you reach a level that cannot be further subdivided. Anyone familiar with the arrangements of folders and files in a computer memory or who has researched their ancestral family tree should be familiar with this idea. You stop breaking down the work when you reach a low enough level to perform an estimate of the desired accuracy. At that point, it is usually easier to estimate how long the small task will take and how much it will cost to perform than it would have been to estimate these factors at the higher levels. Each descending level of the WBS represents an increased level of detailed definition of the project work. WBS describes the products or services to be delivered by the project and how they are decomposed and related. It is a deliverable-oriented decomposition of a project into smaller components. It defines and groups a project’s discrete work elements in a way that helps organize and define the total work scope of the project. A WBS also provides the necessary framework for detailed cost estimating and control, along with providing guidance for schedule development and control. Overview WBS is a hierarchical decomposition of the project into phases, deliverables, and work packages. It is a tree structure, which shows a subdivision of effort required to achieve an objective (e.g., a program, project, and contract). In a project or contract, the WBS is developed by starting with the end objective and successively subdividing it into manageable components in terms of size, duration, and responsibil- ity (e.g., systems, subsystems, components, tasks, subtasks, and work packages), which include all steps necessary to achieve the objective. The WBS creation involves: • Listing all the project outputs (deliverables and other direct results) • Identifying all the activities required to deliver the outputs • Subdividing these activities into subactivities and tasks • Identifying the deliverable and milestone(s) of each task • Identifying the time usage of all the resources (personnel and material) required to complete each task The purpose of developing a WBS is to: • Allow easier management of each component • Allow accurate estimation of time, cost, and resource requirements • Allow easier assignment of human resources • Allow easier assignment of responsibility for activities 9. Scope Planning 84 Example of a WBS If I want to clean a room, I might begin by picking up clothes, toys, and other things that have been dropped on the floor. I could use a vacuum cleaner to get dirt out of the carpet. I might take down the curtains and take them to the cleaners, and then dust the furniture. All of these tasks are subtasks per- formed to clean the room. As for vacuuming the room, I might have to get the vacuum cleaner out of the closet, connect the hose, empty the bag, and put the machine back in the closet. These are smaller tasks to be performed in accomplishing the subtask called vacuuming. Figure 9.3 shows how this might be portrayed in WBS format. Figure 9.3: A WBS for cleaning a room. [Image description] It is very important to note that we do not worry about the sequence in which the work is performed or any dependencies between the tasks when we do a WBS. That will be worked out when we develop the schedule. For example, under 3.0 Vacuum, it would be obvious that 3.3 Vacuum carpet would be per- formed after 3.4 Connect hose and plug! However, you will probably find yourself thinking sequentially, as it seems to be human nature to do so. The main idea of creating a WBS is to capture all of the tasks, irrespective of their order. So if you find yourself and other members of your team thinking sequentially, don’t be too concerned, but don’t get hung up on trying to diagram the sequence or you will slow down the process of task identification. A WBS can be structured any way it makes sense to you and your project. In practice, the chart structure is used quite often but it can be composed in outline form as well (Figure 9.4). 85 2nd Edition https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2014/06/wbs-cleaning-room https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2014/06/wbs-cleaning-room Figure 9.4: Clean Room in an outline view. You’ll notice that each element at each level of the WBS in both figures is assigned a unique identifier. This unique identifier is typically a number, and it’s used to sum and track costs, schedules, and resources associated with WBS elements. These numbers are usually associated with the corporation’s chart of accounts, which is used to track costs by category. Collectively, these numeric identifiers are known as the code of accounts. There are also many ways you can organize the WBS. For example, it can be organized by either deliverable or phase. The major deliverables of the project are used as the first level in the WBS. For example, if you are doing a multimedia project the deliverables might include producing a book, CD, and a DVD (Figure 9.5). 9. Scope Planning 86 https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2014/06/outline-cleaning-room https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2014/06/outline-cleaning-room Figure 9.5: A WBS for a multimedia project Many projects are structured or organized by project phases (Figure 9.6). Each phase would represent the first level of the WBS and their deliverables would be the next level and so on. Figure 9.6: WBS Project Phases The project manager is free to determine the number of levels in the WBS based on the complexity of 87 2nd Edition https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2013/05/14-5-2-Multimedia-Project-1024x579 https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2013/05/14-5-2-Multimedia-Project-1024x579 https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2014/06/wbs-project https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2014/06/wbs-project the project. You need to include enough levels to accurately estimate project time and costs but not so many levels that are difficult to distinguish between components. Regardless of the number of levels in a WBS, the lowest level is called a work package. Work packages are the components that can be easily assigned to one person or a team of people, with clear accountability and responsibility for completing the assignment. The work-package level is where time estimates, cost estimates, and resource estimates are determined. 100 Percent Rule The 100 percent rule is the most important criterion in developing and evaluating the WBS. The rule states that each decomposed level (child) must represent 100 percent of the work applicable to the next higher (parent) element. In other words, if each level of the WBS follows the 100 percent rule down to the activities, then we are confident that 100 percent of the activities will have been identified when we develop the project schedule. When we create the budget for our project, 100 percent of the costs or resources required will be identified. Scope Statement Scope statements may take many forms depending on the type of project being implemented and the nature of the organization. The scope statement details the project deliverables and describes the major objectives. The objectives should include measurable success criteria for the project. A scope statement captures, in very broad terms, the product of the project: for example, “develop- ment of a software-based system to capture and track orders for software.” A scope statement should also include the list of users using the product, as well as the features in the resulting product. As a baseline scope statements should contain: • The project name • The project charter • The project owner, sponsors, and stakeholders • The problem statement • The project goals and objectives • The project requirements • The project deliverables • The project non-goals (what is out of scope) • Milestones • Cost estimates In more project-oriented organizations, the scope statement may also contain these and other sections: • Project scope management plan • Approved change requests 9. Scope Planning 88 • Project assumptions and risks • Project acceptance criteria Image Descriptions Figure 9.2 image description: A project manager develops a Scope Management Plan by taking the project charter, organizational memory, and the project plan and applying the following techniques and tools: • Calls on past project experience • Uses scope management templates (SOS, WBS, Scope Management Plan) • Uses Communication skills (for negotiating with and educating clients) [Return to Figure 9.2] Figure 9.3 image description: 0.0 Clean Room • 1.0 Mop floor. ◦ 1.1 Get mop and bucket out. ◦ 1.2 Mix cleaner with water in bucket. ◦ 1.3 Rinse out bucket and mop. • 2.0 Dust ◦ 2.1 Coffee table ◦ 2.2 Blinds • 3.0 Vacuum ◦ 3.1 Get vacuum out of closet ◦ 3.2 Vacuum carpet ◦ 3.3 Empty bag ◦ 3.4 Connect hose and plug • 4.0 Pick up floor ◦ 4.1 Toys ▪ 4.1.1 Put toys in box ◦ 4.2 Clothes ▪ 4.2.1 Hang up in closet • 5.0 Clean curtains ◦ 5.1 Remove curtains ◦ 5.2 Take to cleaners ◦ 5.3 Hang curtains 89 2nd Edition [Return to Figure 9.3] Text Attributions This chapter of Project Management is a derivative of the following texts: • Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution). • Project Management/PMBOK/Scope Management and Development Cooperation Handbook/ Designing and Executing Projects/Detailed Planning or design stage by Wikibooks. © CC BY-SA (Attribution-ShareAlike). • Requirements Traceability Matrix by DHWiki. © CC BY-NC-ND (Attribution-NonCommer- cial-NoDerivatives) • Work Breakdown Structure by Wikipedia. © CC BY-SA (Attribution-ShareAlike). • 100 Percent Rule by Pabipedia. © CC BY-SA (Attribution-ShareAlike). Media Attributions • ATM by megawatts86 © CC BY-SA (Attribution ShareAlike) • Scope Management IO by Flaming Sevens adapted by Josie Gray © Public Domain • WBS Cleaning Room by Barron & Barron Project Management for Scientists and Engineers © CC BY (Attribution) • WBS Outline – Clean Room by Barron & Barron Project Management for Scientists and Engineers © CC BY (Attribution) • Multimedia Project WBS by Barron & Barron Project Management for Scientists and Engi- neers © CC BY (Attribution) • WBS Project Phases by Barron & Barron Project Management for Scientists and Engineers © CC BY (Attribution) 9. Scope Planning 90 http://cnx.org/content/col11120/latest http://cnx.org/content/col11120/latest https://creativecommons.org/licenses/by/3.0/ http://en.wikibooks.org/wiki/Project_Management/PMBOK/Scope_Management http://en.wikibooks.org/wiki/Development_Cooperation_Handbook/Designing_and_Executing_Projects/Detailed_Planning_or_design_stage http://en.wikibooks.org/wiki/Development_Cooperation_Handbook/Designing_and_Executing_Projects/Detailed_Planning_or_design_stage https://creativecommons.org/licenses/by-sa/3.0/ https://creativecommons.org/licenses/by-sa/3.0/ http://en.dwhwiki.info/templates/specification/requirements_traceability_matrix https://creativecommons.org/licenses/by-nc-nd/4.0/ https://creativecommons.org/licenses/by-nc-nd/4.0/ https://creativecommons.org/licenses/by-sa/3.0/ http://pabipedia.wikidot.com/100-percent-rule https://creativecommons.org/licenses/by-sa/3.0/ https://www.flickr.com/photos/32317927@N07/3403076282/ https://creativecommons.org/licenses/by-sa/4.0/ https://en.wikibooks.org/wiki/File:ScopeIO.JPG https://en.wikipedia.org/wiki/User:FlamingSevens https://creativecommons.org/publicdomain/mark/1.0/ https://cnx.org/contents/5e9177d7-9998-43d0-9b98-91a369c6a371@4.1 https://creativecommons.org/licenses/by/4.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ 10. Project Schedule Planning In order to develop our schedule, we first need to define the activities, sequence them in the right order, estimate the resources needed, and estimate the time it will take to complete the tasks. Defining Activities The activity definition process is a further breakdown of the work package elements of the WBS. It documents the specific activities needed to fulfill the deliverables detailed in the WBS. These activities are not the deliverables themselves but the individual units of work that must be completed to fulfill the deliverables. Activity definition uses everything we already know about the project to divide the work into activities that can be estimated. You might want to look at all the lessons learned from similar pro- jects your company has done to get a good idea of what you need to do on the current one. Expert judgment in the form of project team members with prior experience developing project scope statements and WBS can help you define activities. If you are asked to manage a project in a new domain, you might also use experts in that particular field to help define tasks so you can understand what activities are going to be involved. You may want to create an activity list and then have the expert review it and suggest changes. Alternatively, you could involve the expert from the very beginning and ask to have an activity definition conversation with him or her before even making your first draft of the list. Sometimes you start a project without knowing a lot about the work that you’ll be doing later. Rolling- wave planning lets you plan and schedule only the portion that you know enough about to plan well. When you don’t know enough about a project, you can use placeholders for the unknown portions until you know more. These are extra items that are put at high levels in the WBS to allow you to plan for the unknown. A Case Study Susan and Steve have decided to tie the knot, but they don’t have much time to plan their wedding. They want the big day to be unforgettable. They want to invite many people and provide a great time. They’ve always dreamed of a June wedding, but it’s already January. Just thinking about all of the details involved is overwhelming. Susan has been dreaming of the big day since she was 12, but it seems that there’s so little time for all the tasks to be completed. When they were choosing the paper for the invita- tions, the couple realized that they needed help. Susan: Steve, we need some help. Steve: Don’t worry. My sister’s wedding planner was great. Let me give her a call. [Steve calls the wedding planner Sally.] 91 Wedding Planner: Hello, Susan and Steve. Steve: We want everything to be perfect. Susan: There is so much to do! Invitations, food, guests, and music. Steve: Oh no, we haven’t even booked a place! Susan: And it has to be done right. We can’t print the invitations until we have the menu planned. We can’t do the seating arrangements until we have the RSVPs. We aren’t sure what kind of band to get for the reception, or should it be a DJ? We’re just overwhelmed. Steve: My sister said you really saved her wedding. I know she gave you over a year to plan. But I’ve always dreamed of a June wedding, and I’m not willing to give that up. I know it’s late, but Sally, can you help us? Wedding Planner: Take it easy. I’ve got it under control. We’ve a lot of people and activities to get under control. You really should have called six months ago, but we’ll still make this wedding happen on time. Much work has to be done before June. First, Sally figures out what work needs to be done. She starts to put together a to-do list: • Invitations • Flowers • Wedding cake • Dinner menu • Band Since many different people are involved in the making of the wedding, it takes much planning to coor- dinate all the work in the right order by the right people at the right time. Initially, Sally was worried that she didn’t have enough time to make sure that everything would be done properly. However, she knew that she had some powerful time management tools on her side when she took the job, and these tools would help her to synchronize all the required tasks. To get started, Sally arranged all the activities in a work breakdown structure. The next exercise presents part of the WBS Sally made for the wedding. WBS Exercise Arrange the following activities into the WBS (Figure 10.1) to show how the work items decompose into activ- ities. • Shop for shoes • Create guest list • Have the tailoring and fitting done • Shop for dress • Find caterer • Cater the wedding • Wait for RSVPs • Mail the invitations 10. Project Schedule Planning 92 • Finalize the menu • Print the invitations • Choose the bouquet Figure 10.1 Work breakdown structure (WBS) based on the project phase. Solution to Exercise: 93 2nd Edition https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2014/06/wedding-wbs-breakdown-phase https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2014/06/wedding-wbs-breakdown-phase Figure 10.2 WSB Wedding Exercises Solution. [Image description] Activity List Now that the activity definitions for the work packages have been completed, the next task is to complete the activity list. The project activity list is a list of everything that needs to be done to complete your project, including all the activities that must be accomplished to deliver each work package. Next you want to define the activity attributes. Here’s where the description of each activity is kept. It includes all the information you need to figure out plus the order of the work. Any predecessor activities, successor activities, or constraints should be listed in the attributes along with descriptions and any other informa- tion about resources or time that you need for planning. The three main kinds of predecessors are fin- ish-to-start (FS), start-to-start (SS), and finish-to-finish (FF). The most common kind of predecessor is the finish-to-start. It means that one task needs to be completed before another one can start. When you think of predecessors, this is what you usually think of; one thing needs to end before the next can begin. It’s called finish-to-start because the first activity’s finish leads into the second activity’s start (Figure 10.3). Figure 10.3: An example of a finish-to-start (FS) predecessor. The start-to-start predecessor is a little less common, but sometimes you need to coordinate activities so they begin at the same time (Figure 10.4). 10. Project Schedule Planning 94 https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/fs-predecessor https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/fs-predecessor Figure 10.4: An example of a start-to-start (SS) predecessor. The finish-to-finish predecessor shows activities that finish at the same time (Figure 10.5). Figure 10.5: An example of a finish-to-finish (FF) predecessor. It is possible to have start-to-finish (SF) predecessors. This happens when activities require that another task be started before the successor task can finish. An example might be that the musicians cannot finish playing until the guests have started leaving the ceremony. In addition, there are some particular types of predecessors that must be considered. External Predecessors Sometimes your project will depend on things outside the work you’re doing. For the wedding, we are depending on the wedding party before us to be out of the reception hall in time for us to decorate. The decoration of the reception hall then depends on that as an external predecessor. Discretionary Predecessors These are usually process- or procedure-driven or best-practice techniques based on past experience. In 95 2nd Edition https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/ss-predecessor https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/ss-predecessor https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2014/06/ff-predecessor https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2014/06/ff-predecessor the wedding example, Steve and Susan want the bridesmaids to arrive at the reception before the couple arrives. There’s no necessity; it is just a matter of preference. Mandatory Predecessors You can’t address an invitation that hasn’t been printed yet. So printing invitations is a mandatory prede- cessor for addressing them. Mandatory predecessors are the kinds that have to exist just because of the nature of the work. Leads and Lags Sometimes you need to give some extra time between activities. Lag time is when you purposefully put a delay between the predecessor task and the successor. For example, when the bride and her father dance, the others wait awhile before they join them (Figure 10.6). Figure 10.6 A lag means making sure that one task waits a while before it gets started. Lead time is when you give a successor task some time to get started before the predecessor finishes (Figure 10.7). So you might want the caterer preparing dessert an hour before everybody is eating din- ner. 10. Project Schedule Planning 96 https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/wbs-lag https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/wbs-lag Figure 10.7: A lead is when you let a task get started before its predecessor is done. Milestones All of the important checkpoints of your project are tracked as milestones. Some of them could be listed in your contract as requirements of successful completion; some could just be significant points in the project that you want to keep track of. The milestone list needs to let everyone know which milestones are required and which are not. Some milestones for Susan and Steve’s wedding might be: • Invitations sent • Menu finalized • Location booked • Bridesmaids’ dresses fitted As you figure out which activities will need to be done, you may realize that the scope needs to change. When that happens, you need to create a change request and send it through the change control system. Some things that could go wrong: Wedding Planner: We just got the programs back from the printer and they’re all wrong. Steve: The quartet cancelled. They had another wedding that day. Susan: Aunt Jane is supposed to sing at the service, but after what happened at her uncle’s funeral, I think I want someone else to do it. Steve: Should we really have a pan flute player? I’m beginning to think it might be overkill. Susan: Apparently! Maybe we should hold off on printing the invitations until these things are worked out. Wedding Planner: OK, let’s think about exactly how we want to do this. I think we need to be sure about how we want the service to go before we do any more printing. 97 2nd Edition https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/wbs-lead https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/wbs-lead The Activity Sequencing Process Now that we know what we have to do to make the wedding a success, we need to focus on the order of the work. Sally sat down with all of the activities she had defined for the wedding and decided to figure out exactly how they needed to happen. That’s where she used the activity sequencing process. The activity attribute list Sally created had most of the predecessors and successors necessary written in it. This is where she thought of what comes first, second, third, etc. Sally’s milestone list had major pieces of work written down, and there were a couple of changes to the scope she had discovered along the way that were approved and ready to go. Example milestone list: Steve and Susan had asked that the invitations be printed at least three months in advance to be sure that everyone had time to RSVP. That’s a milestone on Sally’s list. Example change request: When Sally realized that Steve and Susan were going to need another limo to take the bridesmaids to the reception hall, she put that change through change control, including running everything by Susan’s mother, and it was approved. Creating the Gantt Chart A Gantt chart is a type of bar chart, developed by Henry Gantt, that illustrates a project schedule. Gantt charts are easy to read and are commonly used to display schedule activities. These charts display the start and finish dates of the terminal elements and summary elements of a project. Terminal elements and summary elements comprise the work breakdown structure of the project. Some Gantt charts also show the dependency relationships (i.e., precedence network) between activities. Gantt charts show all the key stages of a project and their duration as a bar chart, with the time scale across the top. The key stages are placed on the bar chart in sequence, starting in the top left corner and ending in the bottom right corner (Figure 10.8). A Gantt chart can be drawn quickly and easily and is often the first tool a project manager uses to provide a rough estimate of the time that it will take to com- plete the key tasks. Sometimes it is useful to start with the target deadline for completion of the whole project, because it is soon apparent if the time scale is too short or unnecessarily long. The detailed Gantt chart is usually constructed after the main objectives have been determined. 10. Project Schedule Planning 98 Figure 10.8 Gantt chart for directory production In this example in Figure 10.8, key stage K (Organize distribution) starts at week 23 so that its end point coincides with key stage L (Distribute directory). However, K could begin as early as week 17, as soon as key stage J is completed. Key stage K is therefore said to have “slack.” Key stage H (Agree print contract) has been placed to end at week 12. However, it could end as late as week 22, because key stage I (Print directory) does not begin until week 23. Key stage H is therefore said to have “float.” Float time can be indicated on the chart by adding a line ahead of the bar to the latest possible end point. Slack and float show you where there is flexibility in the schedule, and this can be useful when you need to gain time once the project is up and running. You can add other information to a Gantt chart, for example: • Milestones could be indicated by using a symbol such as a diamond or triangle. • Project meetings could be indicated by another symbol such as a circle. • Reviews of progress could be indicated by a square. For a complex project, you may decide to produce a separate Gantt chart for each of the key stages. If you do this shortly before each key stage begins, you will be able to take any last-minute eventualities into account. These charts provide a useful tool for monitoring and control as the project progresses. Gantt charts are relatively easy to draw by hand, but this doesn’t offer the same level of flexibility during monitoring that you would get from a software package. Various programs are available to assist project managers in scheduling and control. Once the data have been entered, a program helps you to work on “what if” scenarios, showing what might happen if a key stage is delayed or speeded up. This is more difficult if you are working manually. 99 2nd Edition https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/gantt-chart-1 https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/gantt-chart-1 Creating the Network Diagram Many project managers use network diagrams when scheduling a project. The network diagram is a way to visualize the interrelationships of project activities. Network diagrams provide a graphical view of the tasks and how they relate to one another. The tasks in the network are the work packages of the WBS. All of the WBS tasks must be included in the network because they have to be accounted for in the schedule. Leaving even one task out of the network could change the overall schedule duration, estimated costs, and resource allocation commitments. The first step is to arrange the tasks from your WBS into a sequence. Some tasks can be accomplished at any time throughout the project where other tasks depend on input from another task or are constrained by time or resources. Figure 10.9: The relationship between the work breakdown structure (WBS) and the network diagram. The WBS is not a schedule, but it is the basis for it. The network diagram is a schedule but is used pri- marily to identify key scheduling information that ultimately goes into user-friendly schedule formats, such as milestone and Gantt charts. The network diagram provides important information to the project team. It provides information about how the tasks are related (Figure 10.9), where the risk points are in the schedule, how long it will take as currently planned to finish the project, and when each task needs to begin and end. In our wedding planner example, Sally would look for relationships between tasks and determine what can be done in parallel and what activities need to wait for others to complete. As an example, Figure 10.10 shows how the activities involved in producing the invitations depend on one another. Showing the activities in rectangles and their relationships as arrows is called a precedence diagramming method (PDM). This kind of diagram is also called an activity-on-node (AON) diagram. Another way to show how tasks relate is with the activity-on-arrow (AOA) diagram. Although AON is more commonly used and is supported by all project management programs, PERT is the best-known AOA-type diagram and is the historical basis of all network diagramming. The main difference is the AOA diagram is traditionally drawn using circles as the nodes, with nodes representing the beginning and ending points of the arrows or tasks. In the AOA network, the arrows represent the activities or tasks (Figure 10.11). 10. Project Schedule Planning 100 https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/wbs-and-network-diagram https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/wbs-and-network-diagram Figure 10.10: An example of an activity on node (AON) diagram. All network diagrams have the advantages of showing task interdependencies, start and end times, and the critical path (the longest path through the network) but the AOA network diagram has some disad- vantages that limit the use of the method. Figure 10.11: An example of an activity arrow (AOA) network diagram. The three major disadvantages of the AOA method are: • The AOA network can only show finish-to-start relationships. It is not possible to show lead and lag except by adding or subtracting time, which makes project tracking difficult. • There are instances when dummy activities can occur in an AOA network. Dummy activities are activities that show the dependency of one task on other tasks but for other than technical reasons. For example, one task may depend on another because it would be more cost effec- tive to use the same resources for the two; otherwise the two tasks could be accomplished in parallel. Dummy activities do not have durations associated with them. They simply show that a task has some kind of dependence on another task. 101 2nd Edition https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/activity-on-node-diagram https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/activity-on-node-diagram https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/activity-arrow-diagram https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/activity-arrow-diagram • AOA diagrams are not as widely used as AON diagrams simply because the latter are some- what simpler to use, and all project management software programs can accommodate AON networks, whereas not all can accommodate AOA networks. The Critical Path The critical path describes the sequence of tasks that would enable the project to be completed in the shortest possible time. It is based on the idea that some tasks must be completed before others can begin. A critical path diagram is a useful tool for scheduling dependencies and controlling a project. In order to identify the critical path, the length of time that each task will take must be calculated. Let’s take a look at an example. The length of time in weeks for each key stage is estimated: Table 10.1 Stages of the Critical Path Key stage Estimated time in weeks A. Secure funds 0 B. Negotiate with other agencies 4 C. Form advisory group 4 D. Establish data collection plan 6 E. Collect data 4 F. Write directory text 4 G. Identify printer 2 H. Agree print contract 2 I. Print directory 4 J. Agree distribution plan 12 K. Organize distribution 4 L. Distribute directory 2 We have given the key stage “Secure funds” an estimated time of zero weeks because the project cannot start without the availability of some funding, although estimates would provide detail at a later stage. The stages can now be lined up to produce a network diagram that shows that there are three paths from start to finish and that the lines making up each path have a minimum duration (Figure 10.12). If we now trace each of the possible paths to “Distribute directory” (the finishing point), taking depen- dencies into account, the route that has the longest duration is known as the critical path. This is the minimum time in which it will be possible to complete the project. 10. Project Schedule Planning 102 Figure 10.12: Critical Path Diagram In this example, the critical path is A–B–C–D–E–F–I–L, and the earliest completion date for the project is the sum of the estimated times for all the stages on the critical path – 28 weeks – from the point of securing the funding. All the key stages on the critical path must be completed on time if the project is to be finished on schedule. If the projected total time is much longer than the project sponsor’s expectations, you will need to renegotiate the time scale. Mapping the critical path helps to identify the activities that need to be moni- tored most closely. Image Descriptions Figure 10.2 image description: 0.0 Wedding • 1.0 Invitations ◦ 1.1 Create guest list ◦ 1.2 Wait for RSVPs ◦ 1.3 Mail the invitations ◦ 1.4 Print the invitations • 2.0 Food ◦ 2.1 Find caterer ◦ 2.2 Cater the wedding ◦ 2.3 Finalize the menu • 3.0 Bridal ◦ 3.1 Shop for shoes ◦ 3.2 Tailoring and fitting ◦ 3.3 Shop for dress ◦ 3.4 Choose the bouquet 103 2nd Edition https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/critical-path-diagram https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/critical-path-diagram [Return to Figure 10.2] Text Attributions This chapter of Project Management is a derivative of the following texts: • Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution). • Gantt Chart by Wikipedia. © CC BY-SA (Attribution-ShareAlike). • Planning a Project by OpenLearn Labspace. © CC BY-NC-SA (Attribution-NonCommer- cial-ShareAlike). Media Attributions • Wedding WBS Exercises by Barron & Barron Project Management for Scientists and Engi- neers © CC BY (Attribution) • Wedding WBS Exercises Solution by Barron & Barron Project Management for Scientists and Engineers © CC BY (Attribution) • FS Predecessor by Barron & Barron Project Management for Scientists and Engineers © CC BY (Attribution) • SS Predecessor by Barron & Barron Project Management for Scientists and Engineers © CC BY (Attribution) • FF Predecessor by Barron & Barron Project Management for Scientists and Engineers © CC BY (Attribution) • WBS Lag by Barron & Barron Project Management for Scientists and Engineers © CC BY (Attribution) • WBS Lead by Barron & Barron Project Management for Scientists and Engineers © CC BY (Attribution) • Gantt Chart by Open University © CC BY-NC-SA (Attribution NonCommercial ShareAlike) • WBS and Network Diagram by Barron & Barron Project Management for Scientists and Engineers © CC BY (Attribution) • AON Diagram by Barron & Barron Project Management for Scientists and Engineers © CC BY (Attribution) • Activity arrow diagram by Barron & Barron Project Management for Scientists and Engi- neers © CC BY (Attribution) • Critical Path Diagram by Open University © CC BY-NC-SA (Attribution NonCommercial ShareAlike) 10. Project Schedule Planning 104 http://cnx.org/content/m32170/latest/?collection=col11120/1.4 http://cnx.org/content/col11120/latest https://creativecommons.org/licenses/by/3.0/ http://en.wikipedia.org/wiki/Gantt_chart https://creativecommons.org/licenses/by-sa/3.0/ https://www.open.edu/openlearn/money-business/business-strategy-studies/planning-project/content-section-0?active-tab=description-tab https://creativecommons.org/licenses/by-nc-sa/3.0/ https://creativecommons.org/licenses/by-nc-sa/3.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ https://www.open.edu/openlearn/money-business/business-strategy-studies/planning-project/content-section-6.2 https://www.open.edu/ https://creativecommons.org/licenses/by-nc-sa/4.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ http://cnx.org/content/col11120/1.4/ https://creativecommons.org/licenses/by/4.0/ https://www.open.edu/openlearn/money-business/business-strategy-studies/planning-project/content-section-0?active-tab=description-tab https://www.open.edu/ https://creativecommons.org/licenses/by-nc-sa/4.0/ https://creativecommons.org/licenses/by-nc-sa/4.0/ 11. Resource Planning In the previous wedding case study, it is clear that Steve and Susan have resource problems. Getting a handle on all of the tasks that have to be done is a great start, but it’s not enough to know the tasks and the order they come in. Before you can put the final schedule together, you need to know who is going to do each job, and the things they need so they can do it. “We’ve got so much to do! Invitations, catering, music… and I’ve got no idea who’s going to do it all. I’m totally overwhelmed.” From this statement it is clear that Susan is worried about human resources. In comparison, Steve realizes that not all resources are people: “And it’s not just people. We need food, flowers, a cake, a sound system, and a venue. How do we get a handle on this?” Resources are people, equipment, place, money, or anything else that you need in order to do all of the activities that you planned for. Every activity in your activity list needs to have resources assigned to it. Before you can assign resources to your project, you need to know their availability. Resource avail- ability includes information about what resources you can use on your project, when they’re available to you, and the conditions of their availability. Don’t forget that some resources, like consultants or train- ing rooms, have to be scheduled in advance, and they might only be available at certain times. You’ll need to know this before you can finish planning your project. If you are starting to plan in January, a June wedding is harder to plan than one in December, because the wedding halls are all booked up in advance. That is clearly a resource constraint. You’ll also need the activity list that you created earlier, and you’ll need to know how your organization typically handles resources. Once you’ve got a handle on these things, you’re set for resource estimation. Estimating the Resources The goal of activity resource estimating is to assign resources to each activity in the activity list. There are five tools and techniques for estimating activity resources. Expert judgment means bringing in experts who have done this sort of work before and getting their opinions on what resources are needed. Alternative analysis means considering several different options for how you assign resources. This includes varying the number of resources as well as the kind of resources you use. Many times, there’s more than one way to accomplish an activity and alternative analysis helps decide among the possibili- ties. Published estimating data is something that project managers in a lot of industries use to help them figure out how many resources they need. They rely on articles, books, journals, and periodicals that collect, analyze, and publish data from other people’s projects. Project management software such as Microsoft Project will often have features designed to help project managers estimate resource needs and constraints and find the best combination of assignments for the project. Bottom-up estimating means breaking down complex activities into pieces and working out the resource assignments for each piece. It is a process of estimating individual activity resource need or cost and then adding these up together to come up with a total estimate. Bottom-up estimating is a very accurate means of estimating, provided the estimates at the schedule activity level are accurate. How- 105 ever, it takes a considerable amount of time to perform bottom-up estimating because every activity must be assessed and estimated accurately to be included in the bottom-up calculation. The smaller and more detailed the activity, the greater the accuracy and cost of this technique. Estimating Activity Durations Once you’re done with activity resource estimating, you’ve got everything you need to figure out how long each activity will take. That’s done in a process called activity duration estimating. This is where you look at each activity in the activity list, consider its scope and resources, and estimate how long it will take to perform. Estimating the duration of an activity means starting with the information you have about that activity and the resources that are assigned to it, and then working with the project team to come up with an estimate. Most of the time you’ll start with a rough estimate and then refine it to make it more accurate. You’ll use these five tools and techniques to create the most accurate estimates: Expert judgment will come from your project team members who are familiar with the work that has to be done. If you don’t get their opinion, there’s a huge risk that your estimates will be wrong. Analogous estimating is when you look at similar activities from previous projects and how long they took. This only works if the activities and resources are similar. Parametric estimating means plugging data about your project into a formula, spreadsheet, database, or computer program that comes up with an estimate. The software or formula that you use for paramet- ric estimating is based on a database of actual durations from past projects. Three-point estimating is when you come up with three numbers: a realistic estimate that’s most likely to occur, an optimistic one that represents the best-case scenario, and a pessimistic one that represents the worst-case scenario. The final estimate is the weighted average of the three. Reserve analysis means adding extra time to the schedule (called a contingency reserve or a buffer) to account for extra risk. (Solutions follow.) Exercises In each of the following scenarios of planning Steve and Susan’s wedding, determine which of the five activity resource estimation tools and techniques is being used. 1. Sally has to figure out what to do for the music at Steve and Susan’s wedding. She considers using a DJ, a rock band, or a string quartet. 2. The latest issue of Wedding Planner’s Journal has an article on working with caterers. It includes a table that shows how many waiters work with various guest-list sizes. 3. There’s a national wedding consultant who specializes in Caribbean-themed weddings. Sally gets in touch with her to ask about menu options. 4. Sally downloads and fills out a specialized spreadsheet that a project manager developed to help with wedding planning. 11. Resource Planning 106 5. There’s so much work that has to be done to set up the reception hall that Sally has to break it down into five different activities in order to assign jobs. 6. Sally asks Steve and Susan to visit several different caterers and sample various potential items for the menu. 7. Sally calls up her friend who knows specifics of the various venues in their area for advice on which one would work best. 8. There are two different catering companies at the wedding. Sally asks the head chef at each of them to give her an estimate of how long it will take each of them to do the job. 9. There’s a spreadsheet Sally always uses to figure out how long it takes guest to RSVP. She enters the number of guests and their zip codes, and it calculates estimates for her. 10. Sally’s done four weddings that are very similar to Steve and Susan’s, and in all four of them, it took exactly the same amount of time for the caterers to set up the reception hall. Solutions 1. Alternative analysis 2. Published estimating data 3. Expert judgment 4. Project management software 5. Bottom-up estimating 6. Alternative analysis 7. Expert judgment 8. Expert judgment 9. Parametric estimating 10. Analogous estimating The activity duration estimates are an estimate of how long each activity in the activity list will take. This is a quantitative measure usually expressed in hours, weeks, days, or months. Any work period is fine, and you’ll use different work periods for different jobs. A small job (like booking a DJ) may take just a few hours; a bigger job (like catering, including deciding on a menu, ordering ingredients, cooking food, and serving guests on the big day) could take days. Another thing to keep in mind when estimating the duration of activities is determining the effort involved. Duration is the amount of the time that an activity takes, while effort is the total number of person-hours that are expended. If it takes two people six hours to carve the ice sculpture for the centre- piece of a wedding, the duration is six hours. But if two people worked on it for the whole time, it took 12 person-hours of effort to create. You’ll also learn more about the specific activities while you’re estimating them. That’s something that always happens. You have to really think through all of the aspects of a task in order to estimate it. As you learn more about the specific activities remember to update the activity attributes. If we go back to our case study of the wedding, we can see that while Sally has a handle on how long things are going to take, she still has some work to do before she has the whole project under control. 107 2nd Edition Steve and Susan know where they want to get married, and they have the place booked now. But, what about the caterer? They have no idea who’s going to be providing food. And what about the band they want? Will the timing with their schedule work out? “If the caterers come too early, the food will sit around under heat lamps. But if they come too late, the band won’t have time to play. I just don’t see how we’ll ever work this out.” It’s not easy to plan for a lot of resources when they have tight time restrictions and overlapping con- straints. How do you figure out a schedule that makes everything fit together? You’re never going to have the complete resource picture until you have finished building the schedule. And the same goes for your activity list and duration estimates! It’s only when you lay out the schedule that you’ll figure out that some of your activities and durations didn’t quite work. Project Schedule and Critical Path The project schedule should be approved and signed off by stakeholders and functional managers. This ensures they have read the schedule, understand the dates and resource commitments, and will cooper- ate. You’ll also need to obtain confirmation that resources will be available as outlined in the schedule. The schedule cannot be finalized until you receive approval and commitment for the resource assign- ments outlined in it. Once the schedule is approved, it will become your baseline for the remainder of the project. Project progress and task completion will be monitored and tracked against the project schedule to determine if the project is on course as planned. The schedule can be displayed in a variety of ways, some of which are variations of what you have already seen. Project schedule network diagrams will work as schedule diagrams when you add the start and finish dates to each activity. These diagrams usually show the activity dependencies and critical path. The critical path method is an important tool for keeping your projects on track. Every network dia- gram has something that is called the critical path. It’s the string of activities that, if you add up all of the durations, is longer than any other path through the network. It usually starts with the first activity in the network and usually ends with the last one. Steve: Aunt Jane is a vegetarian. That won’t be a problem, right? Susan: Well, let’s see. What menu did we give the caterers? Steve: We didn’t give it to them yet because we won’t have the final menu until everyone RSVPs and lets us know which entrée they want. Susan: But they can’t RSVP because we haven’t sent out the invitations! What’s holding that up? Steve: We’re still waiting to get them back from the printer. We can’t send them out if we don’t have them yet! Susan: Oh no! I still have to tell the printer what to print on the invitations and what paper to use. Steve: But you were waiting on that until we finished the guest list. Susan: What a mess! 11. Resource Planning 108 Steve thought Aunt Jane being a vegetarian was just a little problem. But it turns out to be a lot bigger than either Steve or Susan realized at first. How did a question about one guest’s meal lead to such a huge mess? The reason that the critical path is critical is that every single activity on the path must finish on time in order for the project to come in on time. A delay in any one of the critical path activities will cause the entire project to be delayed (Figure 11.1). Figure 11.1: An example of problems that can be caused within the critical path. Knowing where your critical path is can give you a lot of freedom. If you know an activity is not on the critical path, then you know a delay in that activity may not necessarily delay the project. This can really help you handle emergency situations. Even better, it means that if you need to bring your project in earlier than was originally planned, you know that adding resources to the critical path will be much more effective than adding them elsewhere. It’s easy to find the critical path in any project. Of course, on a large project with dozens or hundreds of tasks, you’ll probably use software like Microsoft Project to find the critical path for you. But when it does, it’s following the same exact steps that are followed here (Figure 11.12). Step 1. Start with a network diagram. Figure 11.2 Step 1. Create a Network Diagram 109 2nd Edition https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/critical-path-wedding https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/critical-path-wedding https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/step-1-network-diagram https://opentextbc.ca/projectmanagement/wp-content/uploads/sites/3/2019/08/step-1-network-diagram Step 2. Find all the paths in the diagram. A path is any string of activities that goes from the start of the project to the end. • Start > Activity “A” > Activity “B” > Finish
• Start > Activity “A” > Activity “C” > Finish
• Start > Activity “D” > Activity “E” > Finish
Step 3. Find the duration of each path by adding up the durations of each of the activities on the path.
• Start > Activity “A” > Activity “B” > Finish = 4 + 7 = 11
• Start > Activity “A” > Activity “C” > Finish = 4 + 2 = 6
• Start > Activity “D” > Activity “E” > Finish = 3 + 5 = 8
Step 4. The first path has a duration of 11, which is longer than the other paths, so it’s the critical path.
The schedule can also be displayed using a Gantt chart (Figure 11.3).
Figure 11.3: An example of a Gantt chart.
Resource Management
Resource management is the efficient and effective deployment of an organization’s resources when
they are needed. Such resources may include financial resources, inventory, human skills, production
resources, or information technology (IT). In the realm of project management, processes, techniques,
and philosophies for the best approach for allocating resources have been developed. These include
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discussions on functional versus cross-functional resource allocation as well as processes espoused by
organizations like the Project Management Institute (PMI) through the methodology of project manage-
ment outlined in their publication A Guide to the Project Management Body of Knowledge (PMBOK).
Resource management is a key element to activity resource estimating and project human resource man-
agement. As is the case with the larger discipline of project management, there are resource management
software tools available that automate and assist the process of resource allocation to projects.
HR Planning
The most important resource to a project is its people—the project team. Projects require specific exper-
tise at specific moments in the schedule, depending on the milestones being delivered or the given phase
of the project. An organization can host several strategic projects concurrently over the course of a bud-
get year, which means that its employees can be working on more than one project at a time. Alterna-
tively, an employee may be seconded away from his or her role within an organization to become part
of a project team because of a particular expertise. Moreover, projects often require talent and resources
that can only be acquired via contract work and third party vendors. Procuring and coordinating these
human resources, in tandem with managing the time aspect of the project, is critical to overall success.
Managing the Team
In order to successfully meet the needs of a project, it is important to have a high-performing project
team made up of individuals who are both technically skilled and motivated to contribute to the project’s
outcome. One of the many responsibilities of a project manager is to enhance the ability of each project
team member to contribute to the project, while also fostering individual growth and accomplishment.
At the same time, each individual must be encouraged to share ideas and work with others toward a
common goal.
Through performance evaluation, the manager will get the information needed to ensure that the team
has adequate knowledge, to establish a positive team environment and a healthy communication climate,
to work properly, and to ensure accountability.
Managing the project team includes appraisal of employee performance and project performance. The
performance reports provide the basis for managerial decisions on how to manage the project team.
Employee performance includes the employee’s work results such as:
• Quality and quantity of outputs
• Work behaviour (such as punctuality)
• Job-related attributes (such as cooperation and initiative)
After conducting employee performance reviews, project managers should:
• Provide feedback to employees about how well they have performed on established goals
• Provide feedback to employees about areas in which they are weak or could do better
• Take corrective action to address problems with employees performing at or below minimum
expectations
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• Reward superior performers to encourage their continued excellence
Techniques for Managing Resources
One resource management technique is resource leveling. It aims at smoothing the stock of resources on
hand, reducing both excess inventories and shortages.
The required data are the demands for various resources, forecast by time period into the future as
far as is reasonable; the resources’ configurations required in those demands; and the supply of the
resources, again forecast by time period into the future as far as is reasonable.
The goal is to achieve 100% utilization. However that is very unlikely, when weighted by important
metrics and subject to constraints; for example: meeting a minimum quality level, but otherwise mini-
mizing cost.
Resource Leveling
Resource leveling is used to examine unbalanced use of resources (usually people or equipment) over
time and for resolving over-allocations or conflicts.
When performing project planning activities, the manager will attempt to schedule certain tasks simul-
taneously. When more resources such as machines or people are needed than are available, or perhaps a
specific person is needed in both tasks, the tasks will have to be rescheduled sequentially to manage the
constraint. Resource leveling during project planning is the process of resolving these conflicts. It can
also be used to balance the workload of primary resources over the course of the project, usually at the
expense of one of the traditional triple constraints (time, cost, scope).
When using specially designed project software, leveling typically means resolving conflicts or over-
allocations in the project plan by allowing the software to calculate delays and update tasks automat-
ically. Project management software leveling requires delaying tasks until resources are available. In
more complex environments, resources could be allocated across multiple, concurrent projects thus
requiring the process of resource leveling to be performed at company level.
In either definition, leveling could result in a later project finish date if the tasks affected are in the
critical path.
Working with Individuals
Working with other people involves dealing with them both logically and emotionally. A successful
working relationship between individuals begins with appreciating the importance of emotions and how
they relate to personality types, leadership styles, negotiations, and setting goals.
Emotional Intelligence
Emotions are both a mental and physiological response to environmental and internal stimuli. Leaders
need to understand and value their emotions to appropriately respond to the client, project team, and
project environment.
Emotional intelligence includes the following:
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• Self-awareness
• Self-regulation
• Empathy
• Relationship management
Emotions are important to generating energy around a concept, building commitment to goals, and
developing high-performing teams. Emotional intelligence is an important part of the project manager’s
ability to build trust among the team members and with the client. It is an important factor in establishing
credibility and an open dialogue with project stakeholders. Emotional intelligence is critical for project
managers, and the more complex the project profile, the more important the project manager’s emotional
intelligence becomes to project success.
Personality Types
Personality types refer to the differences among people in such matters as what motivates them, how
they process information, how they handle conflict, etc. Understanding people’s personality types is
acknowledged as an asset in interacting and communicating with them more effectively. Understanding
your personality type as a project manager will assist you in evaluating your tendencies and strengths
in different situations. Understanding others’ personality types can also help you coordinate the skills of
your individual team members and address the various needs of your client.
The Myers-Briggs Type Indicator (MBTI) is one of most widely used tools for exploring personal
preference, with more than two million people taking the MBTI each year. The MBTI is often referred
to as simply the Myers-Briggs. It is a tool that can be used in project management training to develop
awareness of preferences for processing information and relationships with other people.
Based on the theories of psychologist Carl Jung, the Myers-Briggs uses a questionnaire to gather
information on the ways individuals prefer to use their perception and judgment. Perception represents
the way people become aware of people and their environment. Judgment represents the evaluation of
what is perceived. People perceive things differently and reach different conclusions based on the same
environmental input. Understanding and accounting for these differences is critical to successful project
leadership.
The Myers-Briggs identifies 16 personality types based on four preferences derived from the ques-
tionnaire. The preferences are between pairs of opposite characteristics and include the following:
• Extroversion (E)-Introversion (I)
• Sensing (S)-Intuition (N)
• Thinking (T)-Feeling (F)
• Judging (J)-Perceiving (P)
Sixteen Myers-Briggs types can be derived from the four dichotomies. Each of the 16 types describes a
preference: for focusing on the inner or outer world (E-I), for approaching and internalizing information
(S-I), for making decisions (T-F), and for planning (J-P). For example, an ISTJ is a Myers-Briggs type
who prefers to focus on the inner world and basic information, prefers logic, and likes to decide quickly.
It is important to note that there is no best type and that effective interpretation of the Myers-Briggs
requires training. The purpose of the Myers-Briggs is to understand and appreciate the differences
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among people. This understanding can be helpful in building the project team, developing common
goals, and communicating with project stakeholders. For example, different people process information
differently. Extroverts prefer face-to-face meetings as the primary means of communicating, while intro-
verts prefer written communication. Sensing types focus on facts, and intuitive types want the big pic-
ture.
On larger, more complex projects, some project managers will use the Myers-Briggs as a team-build-
ing tool during project start-up. This is typically a facilitated work session where team members take the
Myers-Briggs and share with the team how they process information, what communication approaches
they prefer, and what decision-making preferences they have. This allows the team to identify potential
areas of conflict, develop communication strategies, and build an appreciation for the diversity of the
team.
Another theory of personality typing is the DISC method, which rates people’s personalities by testing
a person’s preferences in word associations in the following four areas:
• Dominance/Drive—relates to control, power, and assertiveness
• Inducement/Influence—relates to social situations and communication
• Submission/Steadiness—relates to patience, persistence, and thoughtfulness
• Compliance/Conscientiousness—relates to structure and organization
Understanding the differences among people is a critical leadership skill. This includes understanding
how people process information, how different experiences influence the way people perceive the envi-
ronment, and how people develop filters that allow certain information to be incorporated while other
information is excluded. The more complex the project, the more important the understanding of how
people process information, make decisions, and deal with conflict. There are many personality-type
tests that have been developed and explore different aspects of people’s personalities. It might be pru-
dent to explore the different tests available and utilize those that are most beneficial for your team.
Leadership Styles
Leadership style is a function of both the personal characteristics of the leader and the environment
in which the leadership must occur, and a topic that several researchers have attempted to understand.
Robert Tannenbaum and Warren Schmidt described leaders as either autocratic or democratic (1958).
Harold Leavitt described leaders as pathfinders (visionaries), problem solvers (analytical), or imple-
menters (team oriented) (1986). James MacGregor Burns conceived leaders as either transactional
(focused on actions and decisions) or transformational (focused on the long-term needs of the group and
organization) (1978).
Fred Fiedler introduced his contingency theory, which is the ability of leaders to adapt their leadership
approach to the environment (1971). Most leaders have a dominant leadership style that is most com-
fortable for them. For example, most engineers spend years training in analytical problem solving and
often develop an analytical approach to leadership.
A leadership style reflects personal characteristics and life experiences. Although a project manager’s
leadership style may be predominantly a pathfinder (using Leavitt’s taxonomy), most project managers
become problem solvers or implementers when they perceive the need for these leadership approaches.
The leadership approach incorporates the dominant leadership style and Fiedler’s contingency focus on
adapting to the project environment.
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No particular leadership approach is specifically appropriate for managing a project. Due to the unique
circumstances inherent in each project, the leadership approach and the management skills required to be
successful vary depending on the complexity profile of the project. However, the Project Management
Institute published Shi and Chen’s research that studied project management leadership traits and con-
cluded that good communication skills and the ability to build harmonious relationships and motivate
others are essential (2006). Beyond this broad set of leadership skills, the successful leadership approach
will depend on the profile of the project. For example, a transactional project manager with a strong com-
mand-and-control leadership approach may be very successful on a small software development project
or a construction project, where tasks are clear, roles are well understood, and the project environment
is cohesive. This same project manager is less likely to be successful on a larger, more complex project
with a diverse project team and complicated work processes.
Matching the appropriate leadership style and approach to the complexity profile of the project is a
critical element of project success. Even experienced project managers are less likely to be successful if
their leadership approach does not match the complexity profile of the project.
Each project phase may also require a different leadership approach. During the start-up phase of
a project, when new team members are first assigned to the project, the project may require a com-
mand-and-control leadership approach. Later, as the project moves into the conceptual phase, creativity
becomes important, and the project management takes on a more transformational leadership approach.
Most experienced project managers are able to adjust their leadership approach to the needs of the pro-
ject phase. Occasionally, on very large and complex projects, some companies will bring in different
project managers for various phases of a project. Changing project managers may bring the right level
of experience and the appropriate leadership approach, but is also disruptive to a project. Senior man-
agement must balance the benefit of matching the right leadership approach with the cost of disrupting
established relationships.
Example: Multinational Textbook Publishing Project
On a project to publish a new textbook at a major publisher, a project manager led a team that included mem-
bers from partners that were included in a joint venture. The editorial manager was Greek, the business man-
ager was German, and other members of the team were from various locations in the United States and Europe.
In addition to the traditional potential for conflict that arises from team members from different cultures, the
editorial manager and business manager were responsible for protecting the interest of their company in the
joint venture.
The project manager held two alignment or team-building meetings. The first was a two-day meeting held
at a local resort and included only the members of the project leadership team. An outside facilitator was hired
to facilitate discussion, and the topic of cultural conflict and organizational goal conflict quickly emerged. The
team discussed several methods for developing understanding and addressing conflicts that would increase the
likelihood of finding mutual agreement.
The second team-building session was a one-day meeting that included the executive sponsors from the var-
ious partners in the joint venture. With the project team aligned, the project manager was able to develop sup-
port for the publication project’s strategy and commitment from the executives of the joint venture. In addition
to building processes that would enable the team to address difficult cultural differences, the project manager
focused on building trust with each of the team members. The project manager knew that building trust with
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the team was as critical to the success of the project as the technical project management skills and devoted
significant management time to building and maintaining this trust.
Leadership Skills
The project manager must be perceived to be credible by the project team and key stakeholders. A suc-
cessful project manager can solve problems and has a high degree of tolerance for ambiguity. On pro-
jects, the environment changes frequently, and the project manager must apply the appropriate leadership
approach for each situation.
The successful project manager must have good communication skills. All project problems are con-
nected to skills needed by the project manager:
• Breakdown in communication represents the lack of communication skills
• Uncommitted team members represents the lack of team-building skills
• Role confusion represents the lack of organizational skill
Project managers need a large numbers of skills. These skills include administrative skills, organizational
skills, and technical skills associated with the technology of the project. The types of skills and the depth
of the skills needed are closely connected to the complexity profile of the project. Typically on smaller,
less complex projects, project managers need a greater degree of technical skill. On larger, more com-
plex projects, project managers need more organizational skills to deal with the complexity. On smaller
projects, the project manager is intimately involved in developing the project schedule, cost estimates,
and quality standards. On larger projects, functional managers are typically responsible for managing
these aspects of the project, and the project manager provides the organizational framework for the work
to be successful.
Listening
One of the most important communication skills of the project manager is the ability to actively listen.
Active listening is placing oneself in the speaker’s position as much as possible, understanding the com-
munication from the point of view of the speaker, listening to the body language and other environmental
cues, and striving not just to hear, but to understand. Active listening takes focus and practice to become
effective. It enables a project manager to go beyond the basic information that is being shared and to
develop a more complete understanding of the information.
Example: Client’s Body Language
A client just returned from a trip to Australia where he reviewed the progress of the project with his company’s
board of directors. The project manager listened and took notes on the five concerns expressed by the board of
directors to the client.
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The project manager observed that the client’s body language showed more tension than usual. This was
a cue to listen very carefully. The project manager nodded occasionally and clearly demonstrated he was lis-
tening through his posture, small agreeable sounds, and body language. The project manager then began to
provide feedback on what was said using phrases like “What I hear you say is…” or “It sounds like.…” The
project manager was clarifying the message that was communicated by the client.
The project manager then asked more probing questions and reflected on what was said. “It sounds as if it
was a very tough board meeting.” “Is there something going on beyond the events of the project?” From these
observations and questions, the project manager discovered that the board of directors meeting did not go well.
The company had experienced losses on other projects, and budget cuts meant fewer resources for the project
and an expectation that the project would finish earlier than planned. The project manager also discovered that
the client’s future with the company would depend on the success of the project. The project manager asked,
“Do you think we will need to do things differently?” They began to develop a plan to address the board of
directors’ concerns.
Through active listening, the project manager was able to develop an understanding of the issues that
emerged from the board meeting and participate in developing solutions. Active listening and the trusting envi-
ronment established by the project manager enabled the client to safely share information he had not planned
on sharing and to participate in creating a workable plan that resulted in a successful project.
In the example above, the project manager used the following techniques:
• Listening intently to the words of the client and observing the client’s body language
• Nodding and expressing interest in the client without forming rebuttals
• Providing feedback and asking for clarity while repeating a summary of the information back
to the client
• Expressing understanding and empathy for the client
Active listening was important in establishing a common understanding from which an effective project
plan could be developed.
Negotiation
When multiple people are involved in an endeavor, differences in opinions and desired outcomes nat-
urally occur. Negotiation is a process for developing a mutually acceptable outcome when the desired
outcome for each party conflicts. A project manager will often negotiate with a client, team members,
vendors, and other project stakeholders. Negotiation is an important skill in developing support for the
project and preventing frustration among all parties involved, which could delay or cause project failure.
Negotiations involve four principles:
1. Separate people from the problem. Framing the discussions in terms of desired outcomes
enables the negotiations to focus on finding new outcomes.
2. Focus on common interests. By avoiding the focus on differences, both parties are more open
to finding solutions that are acceptable.
3. Generate options that advance shared interests. Once the common interests are understood,
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solutions that do not match with either party’s interests can be discarded, and solutions that
may serve both parties’ interests can be more deeply explored.
4. Develop results based on standard criteria. The standard criterion is the success of the project.
This implies that the parties develop a common definition of project success.
For the project manager to successfully negotiate issues on the project, he or she should first seek to
understand the position of the other party. If negotiating with a client, what is the concern or desired out-
come of the client? What are the business drivers and personal drivers that are important to the client?
Without this understanding, it is difficult to find a solution that will satisfy the client. The project man-
ager should also seek to understand what outcomes are desirable to the project. Typically, more than one
outcome is acceptable. Without knowing what outcomes are acceptable, it is difficult to find a solution
that will produce that outcome.
One of the most common issues in formal negotiations is finding a mutually acceptable price for a
service or product. Understanding the market value for a product or service will provide a range for
developing a negotiating strategy. The price paid on the last project or similar projects provides informa-
tion on the market value. Seeking expert opinions from sources who would know the market is another
source of information. Based on this information, the project manager can then develop an expected
range within the current market from the lowest price to the highest price.
Additional factors will also affect the negotiated price. The project manager may be willing to pay a
higher price to assure an expedited delivery or a lower price if delivery can be made at the convenience
of the supplier or if payment is made before the product is delivered. Developing as many options as
possible provides a broader range of choices and increases the possibility of developing a mutually ben-
eficial outcome.
The goal of negotiations is not to achieve the lowest costs, although that is a major consideration,
but to achieve the greatest value for the project. If the supplier believes that the negotiations process is
fair and the price is fair, the project is more likely to receive higher value from the supplier. The rela-
tionship with the supplier can be greatly influenced by the negotiation process and a project manager
who attempts to drive the price unreasonably low or below the market value will create an element of
distrust in the relationship that may have negative consequences for the project. A positive negotiation
experience may create a positive relationship that may be beneficial, especially if the project begins to
fall behind schedule and the supplier is in a position to help keep the project on schedule.
Conflict Resolution
Conflict on a project is to be expected because of the level of stress, lack of information during early
phases of the project, personal differences, role conflicts, and limited resources. Although good plan-
ning, communication, and team building can reduce the amount of conflict, conflict will still emerge.
How the project manager deals with the conflict results in the conflict being destructive or an opportu-
nity to build energy, creativity, and innovation.
David Whetton and Kim Cameron developed a response-to-conflict model that reflected the impor-
tance of the issue balanced against the importance of the relationship (2005). The model presented five
responses to conflict:
• Avoiding
• Forcing
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• Collaborating
• Compromising
• Accommodating
Each of these approaches can be effective and useful depending on the situation. Project managers will
use each of these conflict resolution approaches depending on the project manager’s personal approach
and an assessment of the situation.
Most project managers have a default approach that has emerged over time and is comfortable. For
example, some project managers find the use of the project manager’s power the easiest and quickest
way to resolve problems. “Do it because I said to” is the mantra for project managers who use forcing as
the default approach to resolve conflict. Some project managers find accommodating with the client the
most effective approach to dealing with client conflict.
The effectiveness of a conflict resolution approach will depend on the situation. The forcing approach
often succeeds in a situation where a quick resolution is needed, and the investment in the decision by
the parties involved is low.
Example: Resolving an Office Space Conflict
Two senior managers both want the office with the window. The project manager intercedes with little dis-
cussion and assigns the window office to the manager with the most seniority. The situation was a low-level
conflict with no long-range consequences for the project and a solution all parties could accept.
Sometimes office size and location is culturally important, and this situation would take more investment to
resolve.
Example: Conflict Over a Change Order
In another example, the client rejected a request for a change order because she thought the change should
have been foreseen by the project team and incorporated into the original scope of work. The project controls
manager believed the client was using her power to avoid an expensive change order and suggested the project
team refuse to do the work without a change order from the client.
This is a more complex situation, with personal commitments to each side of the conflict and consequences
for the project. The project manager needs a conflict resolution approach that increases the likelihood of a
mutually acceptable solution for the project. One conflict resolution approach involves evaluating the situation,
developing a common understanding of the problem, developing alternative solutions, and mutually selecting
a solution. Evaluating the situation typically includes gathering data. In our example of a change order conflict,
gathering data would include a review of the original scope of work and possibly of people’s understandings,
which might go beyond the written scope.The second step in developing a resolution to the conflict is to restate,
paraphrase, and reframe the problem behind the conflict to develop a common understanding of the problem.
In our example, the common understanding may explore the change management process and determine that
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the current change management process may not achieve the client’s goal of minimizing project changes. This
phase is often the most difficult and may take an investment of time and energy to develop a common under-
standing of the problem.
After the problem has been restated and agreed on, alternative approaches are developed. This is a creative
process that often means developing a new approach or changing the project plan. The result is a resolution to
the conflict that is mutually agreeable to all team members. If all team members believe every effort was made
to find a solution that achieved the project charter and met as many of the team member’s goals as possible,
there will be a greater commitment to the agreed-on solution.
Delegation
Delegating responsibility and work to others is a critical project management skill. The responsibility
for executing the project belongs to the project manager. Often other team members on the project will
have a functional responsibility on the project and report to a functional manager in the parent organi-
zation. For example, the procurement leader for a major project may also report to the organization’s
vice-president for procurement. Although the procurement plan for the project must meet the organiza-
tion’s procurement policies, the procurement leader on the project will take day-to-day direction from
the project manager. The amount of direction given to the procurement leader, or others on the project,
is the decision of the project manager.
If the project manager delegates too little authority to others to make decisions and take action, the
lack of a timely decision or lack of action will cause delays on the project. Delegating too much author-
ity to others who do not have the knowledge, skills, or information will typically cause problems that
result in delay or increased cost to the project. Finding the right balance of delegation is a critical project
management skill.
When developing the project team, the project manager selects team members with the knowledge,
skills, and abilities to accomplish the work required for the project to be successful. Typically, the more
knowledge, skills, abilities, and experience a project team member brings to the project, the more that
team member will be paid. To keep the project personnel costs lower, the project manager will develop a
project team with the level of experience and the knowledge, skills, and abilities to accomplish the work.
On smaller, less complex projects, the project manager can provide daily guidance to project team
members and be consulted on all major decisions. On larger, more complex projects, there are too many
important decisions made every day for the project manager to be involved at the same level, and pro-
ject team leaders are delegated decision-making authority. Larger projects, with a more complex profile
will typically pay more because of the need for the knowledge and experience. On larger, more complex
projects, the project manager will develop a more experienced and knowledgeable team that will enable
the project manager to delegate more responsibility to these team members.
Example Learning Project in Peru
An instructional design project in Peru was falling behind schedule, and a new manager was assigned to the
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design team, which was the one most behind schedule. He was an experienced project manager from the United
States with a reputation for meeting aggressive schedules. However, he failed to see that as a culture, Peruvians
do a great deal more socializing than teams in the U.S. The project manager’s communication with the team
was then limited because he did not go out and spend time with them, and his team did not develop trust or
respect for him. Due to these cultural differences, the project fell further behind, and another personnel change
had to be made at a significant cost of time, trust, and money.
The project manager must have the skills to evaluate the knowledge, skills, and abilities of project team
members and evaluate the complexity and difficulty of the project assignment. Often project managers
want project team members they have worked with in the past. Because the project manager knows the
skill level of the team member, project assignments can be made quickly with less supervision than with
a new team member with whom the project manager has little or no experience.
Delegation is the art of creating a project organizational structure with the work organized into units
that can be managed. Delegation is the process of understanding the knowledge, skills, and abilities
needed to manage that work and then matching the team members with the right skills to do that work.
Good project managers are good delegators.
Adjusting Leadership Styles
Remember that personality traits reflect an individual’s preferences, not their limitations. It is important
to understand that individuals can still function in situations for which they are not best suited. It is also
important to realize that you can change your leadership style according to the needs of your team and
the particular project’s attributes and scope.
For example, a project leader who is more thinking (T) than feeling (F) (according to the Myers-
Briggs model) would need to work harder to be considerate of how team members who are more feeling
(F) might react if they were singled out in a meeting because they were behind schedule. If individu-
als knows their own preferences and which personality types are most successful in each type of project
or project phase, they can set goals for improvement in their ability to perform in those areas that are not
their natural preference.
Another individual goal is to examine which conflict resolution styles you are least comfortable and
work to improve those styles so that they can be used when they are more appropriate than your default
style.
Working with Groups and Teams
A team is a collaboration of people with different personalities that is led by a person with a favoured
leadership style. Managing the interactions of these personalities and styles as a group is an important
aspect of project management.
Trust
Trust is the foundation for all relationships within a project. Without a minimum level of trust, commu-
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nication breaks down, and eventually the project suffers in the form of costs increasing and schedules
slipping. Often, when reviewing a project where the performance problems have captured the attention
of upper management, the evidence of problems is the increase in project costs and the slippage in the
project schedule. The underlying cause is usually blamed on communication breakdown. With deeper
investigation, the communication breakdown is associated with a breakdown in trust.
On projects, trust is the filter through which we screen information that is shared and the filter we
use to screen information we receive. The more trust that exists, the easier it is for information to flow
through the filters. As trust diminishes, the filters become stronger and information has a harder time
getting through, and projects that are highly dependent on an information-rich environment will suffer
from information deprivation.
Contracts and Trust Relationships
A project typically begins with a charter or contract. A contract is a legal agreement that includes penal-
ties for any behaviour or results not achieved. Contracts are based on an adversarial paradigm and do
not lend themselves to creating an environment of trust. Contracts and charters are necessary to clearly
establish the scope of the project, among other things, but they are not conducive to establishing a trust-
ing project culture.
A relationship of mutual trust is less formal but vitally important. When a person or team enters into
a relationship of mutual trust, each person’s reputation and self-respect are the drivers in meeting the
intent of the relationship. A relationship of mutual trust within the context of a project is a commitment
to an open and honest relationship. There is nothing that enforces the commitments in the relationship
except the integrity of the people involved. Smaller, less complex projects can operate within the bound-
aries of a legal contract, but larger, more complex projects must develop a relationship of mutual trust to
be successful.
Types of Trust
Svenn Lindskold describes four kinds of trust (1978):
• Objective credibility. A personal characteristic that reflects the truthfulness of an individual
that can be checked against observable facts.
• Attribution of benevolence. A form of trust that is built on the examination of the person’s
motives and the conclusion that they are not hostile.
• Non-manipulative trust. A form of trust that correlates to a person’s self-interest and the pre-
dictability of a person’s behaviour in acting consistent in that self-interest.
• High cost of lying. The type of trust that emerges when persons in authority raise the cost of
lying so high that people will not lie because the penalty will be too high.
Creating Trust
Building trust on a project begins with the project manager. On complex projects, the assignment of a
project manager with a high trust reputation can help establish the trust level needed. The project man-
ager can also establish the cost of lying in a way that communicates an expectation and a value for trust
on the project. Project managers can also assure that the official goals (stated goals) and operational
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goals (goals that are reinforced) are aligned. The project manager can create an atmosphere where infor-
mal communication is expected and reinforced.
The informal communication is important to establishing personal trust among team members and
with the client. Allotting time during project start-up meetings to allow team members to develop a per-
sonal relationship is important to establishing the team trust. The informal discussion allows for a deeper
understanding of the whole person and creates an atmosphere where trust can emerge.
Example: High Cost of Lying in a Charleston Project
On a project in Charleston, South Carolina, the client was asking for more and more backup to information
from the project. The project manager visited the client to better understand the reporting requirements and
discovered the client did not trust the reports coming from the project and wanted validating material for each
report. After some candid discussion, the project manager discovered that one of the project team members
had provided information to the client that was inaccurate. The team member had made a mistake but had not
corrected it with the client, hoping that the information would get lost in the stream of information from the
project. The project manager removed the team member from the project for two main reasons. The project
manager established that the cost of lying was high. The removal communicated to the project team an expec-
tation of honesty. The project manager also reinforced a covenant with the client that reinforced the trust in the
information the project provided. The requests for additional information declined, and the trust relationship
between project personnel and the client remained high.
Small events that reduce trust often take place on a project without anyone remembering what happened
to create the environment of distrust. Taking fast and decisive action to establish a high cost of lying,
communicating the expectation of honesty, and creating an atmosphere of trust are critical steps a project
manager can take to ensure the success of complex projects.
Project managers can also establish expectations of team members to respect individual differences
and skills, look and react to the positives, recognize each other’s accomplishments, and value people’s
self-esteem to increase a sense of the benevolent intent.
Managing Team Meetings
Team meetings are conducted differently depending on the purpose of the meeting, the leadership style
that is appropriate for the meeting, and the personality types of the members of the team.
Action Item Meetings
Action item meetings are short meetings to develop a common understanding of what the short-term pri-
orities are for the project, individual roles, and expectations for specific activities. This type of meeting
is for sharing, not problem solving. Any problems that emerge from the discussion are assigned to a per-
son, and another meeting is established to address the issue. Action item meetings focus on short-term
activities, usually less than a week in duration.
The action item meeting is fact based and information oriented. It is a left-brain-type focus. The action
item meeting has very little dialogue except to ask clarification questions. If discussion is needed or dis-
agreement is not easily resolved, another problem-solving meeting is established to deal with that issue.
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On smaller topics, that meeting might take place immediately after the action item meeting and only
include those people with an interest in the outcome of the discussion.
The project manager keeps the successful action item meeting short in duration and focused on only
those items of information needed for the short-term project plan. The project manager will restate the
common understandings of what activities are priorities and who will be responsible for the activities.
Often these meetings can include a review of safety procedures or security procedures when these issues
are important to the project. The leadership approach to action item meetings focuses on data, actions,
and commitments. Although the project manager may observe stresses between project team members
or other issues, they are not addressed in this meeting. These are fact-based meetings. If issues begin
to arise between people, the project manager will develop other opportunities to address these issues
in another forum. Using the Myers-Briggs descriptions, team members who favour thinking more than
feeling and judging more than perceiving are more comfortable with this type of meeting.
Management Meetings
Management meetings are longer in duration and are focused on planning. They are oriented toward
developing plans, tracking progress of existing plans, and making adjustments to plans in response to
new information.
These meetings include focused discussion on generating a common understanding of the progress of
the existing plan. This discussion is based on quantitative information provided on the progress of the
schedule and other data, but the discussion is qualitative in evaluating the data to develop a more com-
plete understanding of the data. The experience and opinions of the project leaders are solicited, and dis-
agreement about meaning of the data is even encouraged to develop a deeper understanding of the data.
Through this discussion, a common understanding of the status of the project should emerge, and the
project manager invites discussion, invites people to offer their thoughts, and assures that disagreements
are positive discussions about interpretation of the information and that disagreements do not become
personal.
Management meetings also focus on developing mid-term goals. For larger, more complex projects,
the goals may be monthly or even quarterly. For smaller or less complex projects, weekly goals will pro-
vide the focus. The project manager focuses the discussion on the broad priorities for the next period and
includes all the functional leaders in the discussion. The goals that emerge from the discussion should
represent a common understanding of the priorities of the project for the next term.
For example, during the early phases of a project, the team is focused on developing a conceptual
understanding of the project. A major milestone on complex projects is typically the completion of the
conceptual plan. The project manager would lead a discussion on what needs to be accomplished to meet
the project milestone and asks what potential barriers exist and what key resources are needed. From the
discussion, the project team develops a few key goals that integrate the various functions of the project
team and focus the team on priorities.
The following are some examples of goals during the conceptual phase:
• Developing a list of the procurement long-lead items and defining critical dates
• Developing a human resources plan that identifies critical positions
• Developing and building agreement with the client on the project scope of work
Each of these goals is measurable and has a time frame specified. They can be developed as positive
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motivators and will take the project leaders and most of the project team to accomplish. They develop a
general understanding of the priorities and are easy to remember.
Management meetings are a combination of left-brain thinking, which is fact based, and right-brain
thinking, which is creative and innovative. Using the Myers-Briggs terminology, team members who
prefer feeling over thinking and perceiving over judging can contribute ideas and perspectives on the
project that the more fact-oriented members might miss.
The project manager allows and encourages conversation in developing and evaluating the goals but
focuses the discussion on the goals and obstacles. Management meetings take on a different focus dur-
ing the month. Meetings at the beginning of the month spend time addressing the progress and potential
barriers to the goals developed the previous month. During the middle of the month, the project man-
ager leads the team to develop next month’s goals as the team also works on the current month’s goals.
Toward the end of the month as the goals for the month are accomplished, the meeting focuses more on
the next month, enabling the team to remain goal focused during the life of the project.
Management meetings are also an opportunity to discover obstacles to goal achievement. The project
team reallocates resources or develops alternative methods for accomplishing the goals. As the project
team discusses the progress of project goals, the project manager explores possible obstacles and encour-
ages exposing potential problems in achieving goals. The project manager focuses the team on finding
solutions and avoids searching for blame.
The project manager uses a facilitative leadership approach, encouraging the management team to
contribute their ideas, and builds consensus on what goals will bring the appropriate focus. The project
manager keeps the focus on developing the goals, tracking progress, identifying barriers, and making
adjustments to accomplish the management goals. Although there are typically meetings for scheduling
and procurement and other meetings where goals are established and problems solved, the management
meeting and the goal development process create alignment among the project leadership on the items
critical to the project’s success.
Leadership Meetings
Leadership meetings are held less frequently and are longer in length. These meetings are used by the
project manager to reflect on the project, explore the larger issues of the project, and back away from the
day-to-day problem solving. The project manager will create a safe environment for sharing thoughts
and evaluations of issues that are less data oriented. This is a right-brained, creative meeting that focuses
on the people issues of the project: the relationship with the client, vendors, and project team. Team
members who favour feeling, perceiving, and intuition often contribute valuable insights in this type of
meeting. The team might also share perceptions by upper management and perceptions of the commu-
nity in which the project is being executed. Where the time frame for action item meetings is in weeks
and management meetings is in months, the time frame for leadership meetings is longer and takes in
the entire length and impact of the project.
The project manager’s meeting management skill includes creating the right meeting atmosphere for
the team discussion that is needed. For discussions based on data and facts, the project manager cre-
ates the action item type meeting. The conversation is focused on sharing information and clarification.
The conversation for leadership meetings is the opposite. Discussion is more open ended and focused on
creativity and innovation. Because each type of meeting requires a different meeting atmosphere, mix-
ing the purposes of a meeting will make it difficult for the project manager to develop and maintain the
appropriate kind of conversation.
Skilled project managers know what type of meeting is needed and how to develop an atmosphere
to support the meeting type. Meetings of the action item type are focused on information sharing with
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little discussion. They require efficient communication of plans, progress, and other information team
members need to plan and execute daily work. Management type meetings are focused on developing
and progressing goals. Leadership meetings are more reflective and focused on the project mission and
culture.
These three types of meetings do not cover all the types of project meetings. Specific problem-solving,
vendor evaluation, and scheduling meetings are examples of typical project meetings. Understanding
what kinds of meetings are needed on the project and creating the right focus for each meeting type is a
critical project management skill.
Types of Teams
Teams can outperform individual team members in several situations. The effort and time invested in
developing a team and the work of the team are large investments of project resources, and the payback
is critical to project success. Determining when a team is needed and then chartering and supporting the
development and work of the team are other critical project management abilities.
Teams are effective in several project situations:
• When no one person has the knowledge, skills, and abilities to either understand or solve the
problem
• When a commitment to the solution is needed by large portions of the project team
• When the problem and solution cross project functions
• When innovation is required
Individuals can outperform teams on some occasions. An individual tackling a problem consumes fewer
resources than a team and can operate more efficiently—as long as the solution meets the project’s needs.
A person is most appropriate in the following situations:
• When speed is important
• When one person has the knowledge, skills, and resources to solve the problem
• When the activities involved in solving the problem are very detailed
• When the actual document needs to be written (Teams can provide input, but writing is a soli-
tary task.)
In addition to knowing when a team is appropriate, the project manager must also understand what type
of team will function best.
Functional Teams
A functional team refers to the team approach related to the project functions. The engineering team, the
procurement team, and the project controls team are examples of functional teams within the project.
On a project with a low complexity profile that includes low technological challenges, good team mem-
ber experience, and a clear scope of work, the project manager can utilize well-defined functional teams
with clear expectations, direction, and strong vertical communication.
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Cross-Functional Teams
Cross-functional teams address issues and work processes that include two or more of the functional
teams. The team members are selected to bring their functional expertise to addressing project opportu-
nities.
Example: Cross-Functional Teamwork
A cross-functional project team in Tennessee was assigned to develop a project approach to drafting, shooting,
and editing educational videos without storing the videos on the school server. Although the complexity of this
goal is primarily related to creating the videos and procuring editing equipment, the planning involved coordi-
nation of the script drafting, procurement of equipment and talent, and establishment of project controls. Team
members from each of these functions developed and tracked a plan to meet the project goal. Because they
communicated so frequently and clearly, the cross-functional team was successful in designing a process and
executing the plan in a way that saved three weeks on the video schedule and several thousand dollars in cost
by hosting off-site.
Problem-Solving Teams
Problem-solving teams are assigned to address specific issues that arise during the life of the project.
The project leadership includes members that have the expertise to address the problem. The team is
chartered to address that problem and then disband.
Qualitative Assessment of Project Performance
Project managers should provide an opportunity to ask such questions as “What is your gut feeling about
how the project going?” and “How do you think our client perceives the project?” This creates the oppor-
tunity for reflection and dialogue around larger issues on the project. The project manager creates an
atmosphere for the team to go beyond the data and search for meaning. This type of discussion and
reflection is very difficult in the stress of day-to-day problem solving.
The project manager has several tools for developing good quantitative information—based on num-
bers and measurements—such as the project schedules, budgets and budget reports, risk analysis, and
goal tracking. This quantitative information is essential to understanding the current status and trends
on the project. Just as important is the development of qualitative information—comparisons of quali-
ties—such as judgments made by expert team members that go beyond the quantitative data provided in
a report. Some would label this the “gut feeling” or intuition of experienced project managers.
The Humm Factor is a survey tool developed by Russ Darnall to capture the thoughts of project par-
ticipants. It derived its name from a project manager who always claimed he could tell you more by
listening to the hum of the project than reading all the project reports. “Do you feel the project is doing
the things it needs to do to stay on schedule?” and “Is the project team focused on project goals?” are the
types of questions that can be included in the Humm Factor. It is distributed on a weekly or less frequent
basis depending on the complexity profile of the project. A project with a high level of complexity due
to team-based and cultural issues will be surveyed more frequently.
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The qualitative responses are converted to a quantitative value as a score from 1 to 10. Responses are
tracked by individuals and the total project, resulting in qualitative comparisons over time. The project
team reviews the ratings regularly, looking for trends that indicate an issue may be emerging on the pro-
ject that might need exploring.
Example: Humm Survey Uncovers Concerns
On a project in South Carolina, the project surveyed the project leadership with a Humm Survey each week.
The Humm Factor indicated an increasing worry about the schedule beginning to slip when the schedule
reports indicated that everything was according to plan. When the project manager began trying to understand
why the Humm Factor was showing concerns about the schedule, he discovered an apprehension about the
performance of a critical project supplier. When he asked team members, they responded, “It was the way they
answered the phone or the hesitation when providing information—something didn’t feel right.”
The procurement manager visited the supplier and discovered the company was experiencing financial prob-
lems and had serious cash flow problems. The project manager was able to develop a plan to help the supplier
through the period, and the supplier eventually recovered. The project was able to meet performance goals.
The Humm Factor survey provided a tool for members of the project team to express concerns that were based
on very soft data, and the project team was able to discover a potential problem.
Another project team used the Humm Factor to survey the client monthly. The completed surveys went to a
person who was not on the project team to provide anonymity to the responses. The responses were discussed
at the monthly project review meetings, and the project manager summarized the results and addressed all
the concerns expressed in the report. “I don’t feel my concerns are being heard” was one response that began
increasing during the project, and the project manager spent a significant portion of the next project review
meeting attempting to understand what this meant. The team discovered that as the project progressed toward
major milestones, the project team became more focused on solving daily problems, spent more time in meet-
ings, and their workday was becoming longer. The result was fewer contacts with the clients, slower responses
in returning phone calls, and much fewer coffee breaks where team members could casually discuss the project
with the client.
The result of the conversation led to better understanding by both the project team and client team of the
change in behaviour based on the current phase of the project and the commitment to developing more frequent
informal discussion about the project.
Creating a Project Culture
Project managers have a unique opportunity during the start-up of a project. They create a project cul-
ture, something organizational managers seldom have a chance to do. In most organizations, the corpo-
rate or organizational culture has developed over the life of the organization, and people associated with
the organization understand what is valued, what has status, and what behaviours are expected. Edgar
Schein identified three distinct levels in organizational culture.
1. Artifacts and behaviours
2. Espoused values
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3. Assumptions
Artifacts are the visible elements in a culture and they can be recognized by people not part of the cul-
ture. Espoused values are the organization’s stated values and rules of behaviour. Shared basic assump-
tions are the deeply embedded, taken-for-granted behaviours that are usually unconscious, but constitute
the essence of culture.
Characteristics of Project Culture
A project culture represents the shared norms, beliefs, values, and assumptions of the project team.
Understanding the unique aspects of a project culture and developing an appropriate culture to match the
complexity profile of the project are important project management abilities.
Culture is developed through the communication of:
• The priority
• The given status
• The alignment of official and operational rules
Official rules are the rules that are stated, and operational rules are the rules that are enforced. Project
managers who align official and operational rules are more effective in developing a clear and strong
project culture because the project rules are among the first aspects of the project culture to which team
members are exposed when assigned to the project.
Example: Operational Rules on a Multi-site Project
During an instructional design project that required individuals to collaborate remotely, an official rule had
been established that individuals would back up their work in a location other than the shared folders they were
using every week. It did not take long, however, for everyone involved to see that one member was actively
backing up all work. Believing that was sufficient, the operational rule became simply leaving the backing up
to a single individual. They assumed that official rules could be ignored if they were difficult to obey.
When this individual fell ill, however, no one picked up the slack and followed the official rule. When some
files were corrupted, the team found that their most recent backups were weeks old, resulting in redoing a lot
of work. The difference between the official rules and the operational rules of the project created a culture that
made communication of the priorities more difficult.
In addition to official and operational rules, the project leadership communicates what is important by
the use of symbols, storytelling, rituals, rewards or punishments, and taboos.
Example: Creating a Culture of Collaboration
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A project manager met with his team prior to the beginning of an instructional design project. The team was
excited about the prestigious project and the potential for career advancement involved. With this increased
competitive aspect came the danger of selfishness and backstabbing. The project leadership team told stories
of previous projects where people were fired for breaking down the team efforts and often shared inspira-
tional examples of how teamwork created unprecedented successes—an example of storytelling. Every project
meeting started with team-building exercises—a ritual—and any display of hostility or separatism was forbid-
den—taboo—and was quickly and strongly cut off by the project leadership if it occurred.
Culture guides behaviour and communicates what is important and is useful for establishing priorities.
On projects that have a strong culture of trust, team members feel free to challenge anyone who breaks
a confidence, even managers. The culture of integrity is stronger than the cultural aspects of the power
of management.
Innovation on Projects
The requirement of innovation on projects is influenced by the nature of the project. Some projects are
chartered to develop a solution to a problem, and innovation is a central ingredient of project success.
The lack of availability of education to the world at large prompted the open education movement,
a highly innovative endeavor, which resulted in the textbook you are now reading. Innovation is also
important to developing methods of lowering costs or shortening the schedule. Traditional project man-
agement thinking provides a trade-off between cost, quality, and schedule. A project sponsor can typi-
cally shorten the project schedule with an investment of more money or a lowering of quality. Finding
innovative solutions can sometimes lower costs while also saving time and maintaining the quality.
Innovation is a creative process that requires both fun and focus. Stress is a biological reaction to per-
ceived threats. Stress, at appropriate levels, can make the work environment interesting and even chal-
lenging. Many people working on projects enjoy a high-stress, exciting environment. When the stress
level is too high, the biological reaction increases blood flow to the emotional parts of the brain and
decreases the blood flow to the creative parts of the brain, making creative problem solving more diffi-
cult. Fun reduces the amount of stress on the project. Project managers recognize the benefits of balanc-
ing the stress level on the project with the need to create an atmosphere that enables creative thought.
Example: Stress Managed on a Website Design Project
When a project manager visited the team tasked with designing the website for a project, she found that most
of the members were feeling a great deal of stress. As she probed to find the reason behind the stress, she found
that in addition to designing, the team was increasingly facing the need to build the website as well. As few
of them had the necessary skills, they were wasting time that could be spent designing trying to learn building
skills. Once the project manager was able to identify the stress as well as its cause, she was able to provide the
team with the support it needed to be successful.
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Exploring opportunities to create savings takes an investment of time and energy, and on a time-sensitive
project, the project manager must create the motivation and the opportunity for creative thinking.
References
Burns, J.M. (1978). Leadership. New York: Harper & Row.
Fiedler, F.E. (1971). Validation and Extension of the Contingency Model of Leadership Effectiveness.
Psychological Bulletin, 76(2), 128–48.
Leavitt, H. (1986). Corporate Pathfinders. New York: Dow-Jones-Irwin and Penguin Books.
Lindskold, S. (1978). Trust Development, the GRIT Proposal, and the Effects of Conciliatory Acts on
Conflict and Corporation. Psychological Bulletin 85(4), 772–93.
Shi, Q., & Chen, J. (2006). The Human Side of Project Management: Leadership Skills. Newtown
Square, PA: Project Management Institute, Inc.
Tannenbaum, R., & Schmidt, W. (1958). How to Choose a Leadership Pattern. Harvard Business Review
36, 95–101.
Whetton, D., & Cameron, K. (2005). Developing Management Skills. Upper Saddle River, NJ: Pearson
Education.
Text Attributions
This chapter of Project Management is a derivative of the following texts:
• Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution).
• Project Management/PMBOK/Human Resources Management and Development Coopera-
tion Handbook/How do we manage the human resources of programmes and projects?/Man-
age the Project Team by Wikibooks. © CC BY-SA (Attribution-ShareAlike).
• Resource Management, Edgar Schein, and Resource Leveling by Wikipedia. © CC BY-SA
(Attribution-ShareAlike).
• Project Management for Instructional Designers by Amado, M., et. al. © Creative Commons
Attribution 3.0 Licence.
Media Attributions
• Wedding Critical Path by Barron & Barron Project Management for Scientists and Engineers
© CC BY (Attribution)
• Step 1 Network Diagram by Barron & Barron Project Management for Scientists and Engi-
neers © CC BY (Attribution)
• MindView Gantt Chart by Matchware Inc (MindView) © CC BY-SA (Attribution Share-
Alike)
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12. Budget Planning
Every project boils down to money. If you had a bigger budget, you could probably get more people to
do your project more quickly and deliver more. That’s why no project plan is complete until you come
up with a budget. But no matter whether your project is big or small, and no matter how many resources
and activities are in it, the process for figuring out the bottom line is always the same.
It is important to come up with detailed estimates for all the project costs. Once this is compiled, you
add up the cost estimates into a budget plan. It is now possible to track the project according to that bud-
get while the work is ongoing.
Often, when you come into a project, there is already an expectation of how much it will cost or how
much time it will take. When you make an estimate early in the project without knowing much about it,
that estimate is called a rough order-of-magnitude estimate (or a ballpark estimate). This estimate will
become more refined as time goes on and you learn more about the project. Here are some tools and
techniques for estimating cost:
• Determination of resource cost rates: People who will be working on the project all work at
a specific rate. Any materials you use to build the project (e.g., wood or wiring) will be
charged at a rate too. Determining resource costs means figuring out what the rate for labour
and materials will be.
• Vendor bid analysis: Sometimes you will need to work with an external contractor to get
your project done. You might even have more than one contractor bid on the job. This tool is
about evaluating those bids and choosing the one you will accept.
• Reserve analysis: You need to set aside some money for cost overruns. If you know that
your project has a risk of something expensive happening, it is better to have some cash
available to deal with it. Reserve analysis means putting some cash away in case of overruns.
• Cost of quality: You will need to figure the cost of all your quality-related activities into the
overall budget. Since it’s cheaper to find bugs earlier in the project than later, there are
always quality costs associated with everything your project produces. Cost of quality is just
a way of tracking the cost of those activities. It is the amount of money it takes to do the pro-
ject right.
Once you apply all the tools in this process, you will arrive at an estimate for how much your project
will cost. It’s important to keep all of your supporting estimate information. That way, you know the
assumptions made when you were coming up with the numbers. Now you are ready to build your budget
plan.
Estimating Costs to Compare and Select Projects
During the conceptual phase when project selection occurs, economic factors are an important consid-
eration in choosing between competing projects. To compare the simple paybacks or internal rates of
return between projects, an estimate of the cost of each project is made. The estimates must be accu-
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rate enough so that the comparisons are meaningful, but the amount of time and resources used to make
the estimates should be appropriate to the size and complexity of the project. The methods used to esti-
mate the cost of the project during the selection phase are generally faster and consume fewer resources
than those used to create detailed estimates in later phases. They rely more on the expert judgment of
experienced managers who can make accurate estimates with less detailed information. Estimates in the
earliest stages of project selection are usually based on information from previous projects that can be
adjusted—scaled—to match the size and complexity of the current project or developed using standard-
ized formulas.
Analogous Estimate
An estimate that is based on other project estimates is an analogous estimate. If a similar project cost
a certain amount, then it is reasonable to assume that the current project will cost about the same. Few
projects are exactly the same size and complexity, so the estimate must be adjusted upward or downward
to account for the differences. The selection of projects that are similar and the amount of adjustment
needed is up to the judgment of the person who makes the estimate. Normally, this judgment is based
on many years of experience estimating projects, including incorrect estimates that were learning expe-
riences for the expert.
Less-experienced managers who are required to make analogous estimates can look through the docu-
mentation that is available from previous projects. If projects were evaluated using the Darnall-Preston
Complexity Index (DPCI), the manager can quickly identify projects that have profiles similar to the
project under consideration, even if those projects were managed by other people.
The DPCI assesses project attributes, enabling better-informed decisions in creating the project pro-
file. This index assesses the complexity level of key components of a project and produces a unique
project profile. The profile indicates the project complexity level, which provides a benchmark for com-
paring projects and information about the characteristics of a project that can then be addressed in the
project execution plan. It achieves this objective by grouping 11 attributes into four broad categories:
internal, external, technological complexity, and environmental.
Comparing the original estimates with the final project costs on several previous projects with the
same DPCI ratings gives a less-experienced manager the perspective that it would take many years to
acquire by trial and error. It also provides references the manager can use to justify the estimate.
Example: Analogous Estimate for John’s Move
John sold his apartment and purchased another one. It is now time to plan for the move. John asked a friend
for advice about the cost of his move. His friend replied, “I moved from an apartment a little smaller than yours
last year and the distance was about the same. I did it with a 14-foot truck. It cost about $575 for the truck
rental, pads, hand truck, rope, boxes, and gas.” Because of the similarity of the projects, John’s initial estimate
of the cost of the move was less than $700 so he decided that the cost would be affordable and the project could
go forward.
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Parametric Estimate
If the project consists of activities that are common to many other projects, average costs are available
per unit. For example, if you ask a construction company how much it would cost to build a standard
office building, the estimator will ask for the size of the building in square feet and the city in which the
building will be built. From these two factors—size and location—the company’s estimator can predict
the cost of the building. Factors like size and location are parameters—measurable factors that can be
used in an equation to calculate a result. The estimator knows the average cost per square foot of a typ-
ical office building and adjustments for local labour costs. Other parameters such as quality of finishes
are used to further refine the estimate. Estimates that are calculated by multiplying measured parameters
by cost-per-unit values are parametric estimates.
Example: Parametric Estimate for John’s Move
To estimate the size of the truck needed for John’s move, the parameter used by a truck rental company is the
number of bedrooms (Figure 12.1). The company assumes that the number of bedrooms is the important para-
meter in determining how big a truck is needed for a move. John has a one-bedroom apartment, so he chooses
the 14-foot truck. Once the size is determined, other parameters, such as distance and days, are used to estimate
the cost of the truck rental.
Figure 12.1 Parametric Cost Estimate
Bottom-Up Estimating
The most accurate and time-consuming estimating method is to identify the cost of each item in each
activity of the schedule, including labour and materials. If you view the project schedule as a hierarchy
where the general descriptions of tasks are at the top and the lower levels become more detailed, finding
the price of each item at the lowest level and then summing them to determine the cost of higher levels
is called bottom-up estimating.
Example: Bottom-Up Estimate for John’s Move
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Table 12.1 Detailed Cost Estimate
Category Description Activity Quantity Unit Price Cost
Packing Materials Small Boxes 2.1 10 $1.70 $17.00
Packing Materials Medium Boxes 2.1 15 $2.35 $35.25
Packing Materials Large Boxes 2.1 7 $3.00 $21.00
Packing Materials Extra-Large Boxes 2.1 7 $3.75 $26.25
Packing Materials Short-Hanger Boxes 2.1 3 $7.95 $23.85
Packing Materials Box Tape 2.1 2 $3.85 $7.70
Packing Materials Markers 2.1 2 $1.50 $3.00
Packing Materials Mattress/Spring Bags 2.1 2 $2.95 $5.90
Packing Materials Life Straps per Pair 2.1 1 $24.95 $24.95
Packing Materials Bubble Wrap 2.1 1 $19.95 $19.95
Packing Materials Furniture Pads 2.1 4 $7.95 $31.80
Truck Rental 2.2 – – $400.00
Truck Gas at 10mpg 2.2 200 $2.25 $45.00
After evaluating the bids by the moving companies, John decides the savings are worth his time if he can get
the packing done with the help of his friends. He decides to prepare a detailed estimate of costs (Table 12.1)
for packing materials and use of a rental truck. He looks up the prices for packing materials and truck rental
costs on company websites and prepares a detailed list of items, quantities, and costs.
This type of estimate is typically more accurate than an analogous or parametric estimate. In this example,
the sum of packing materials and truck expenses is estimated to be $661.25.
The estimate can be rolled up—subtotaled—to display less detail. This process is made easier using com-
puter software. On projects with low complexity, the cost estimates can be done on spreadsheet software. On
larger projects, software that manages schedules can also manage costs and display them by activity and cate-
gory. For example, the subtotal feature could be used in Excel and collapsed to show the subtotals for the two
categories of costs (Figure 12.2).
Figure 12.2 Sum of detailed costs by type
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Activity-Based Estimates
An activity can have costs from multiple vendors in addition to internal costs for labour and materials.
Detailed estimates from all sources can be reorganized so those costs associated with a particular activity
can be grouped by adding the activity code to the detailed estimate (Table 12.2).
Table 12.2 Costs Associated with Activities
Category Activity Cost
Packing Materials 2.1 $216.65
Truck 2.2 $445.00
The detailed cost estimates can be sorted and then subtotaled by activity to determine the cost for each
activity.
Managing the Budget
Projects seldom go according to plan in every detail. It is necessary for the project manager to be able to
identify when costs are varying from the budget and manage those variations.
Managing Cash Flow
If the total amount spent on a project is equal to or less than the amount budgeted, the project can still
be in trouble if the funding for the project is not available when it is needed. There is a natural tension
between the financial people in an organization, who do not want to pay for the use of money that is just
sitting in a checking account, and the project manager, who wants to be sure that there is enough money
available to pay for project expenses. The financial people prefer to keep the company’s money working
in other investments until the last moment before transferring it to the project account. The contractors
and vendors have similar concerns, and they want to get paid as soon as possible so they can put the
money to work in their own organizations. The project manager would like to have as much cash avail-
able as possible to use if activities exceed budget expectations.
Contingency Reserves
Most projects have something unexpected occur that increases costs above the original estimates. If esti-
mates are rarely exceeded, the estimating method should be reviewed because the estimates are too high.
It is impossible to predict which activities will cost more than expected, but it is reasonable to assume
that some of them will. Estimating the likelihood of such events is part of risk analysis, which is dis-
cussed in more detail in a later chapter.
Instead of overestimating each cost, money is budgeted for dealing with unplanned but statistically
predictable cost increases. Funds allocated for this purpose are called contingency reserves. Because it
is likely that this money will be spent, it is part of the total budget for the project. If this fund is adequate
to meet the unplanned expenses, then the project will complete within the budget.
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Management Reserves
If something occurs during the project that requires a change in the project scope, money may be needed
to deal with the situation before a change in scope can be negotiated with the project sponsor or client.
It could be an opportunity as well as a challenge. For example, if a new technology were invented that
would greatly enhance your completed project, there would be additional cost and a change to the scope,
but it would be worth it. Money can be made available at the manager’s discretion to meet needs that
would change the scope of the project. These funds are called management reserves. Unlike contin-
gency reserves, they are not likely to be spent and are not part of the project’s budget baseline, but they
can be included in the total project budget.
Evaluating the Budget During the Project
A project manager must regularly compare the amount of money spent with the budgeted amount and
report this information to managers and stakeholders. It is necessary to establish an understanding of
how this progress will be measured and reported.
Example: Reporting Budget Progress on John’s Move
In the John’s move example, he estimated that the move would cost about $1,500 and take about 16 days. Eight
days into the project, John has spent $300. John tells his friends that the project is going well because he is
halfway through the project but has only spent a fifth of his budget. John’s friend Carlita points out that his
report is not sufficient because he did not compare the amount spent to the budgeted amount for the activities
that should be done by the eighth day.
As John’s friend pointed out, a budget report must compare the amount spent with the amount that is
expected to be spent by that point in the project. Basic measures such as percentage of activities completed,
percentage of measurement units completed, and percentage of budget spent are adequate for less complex
projects, but more sophisticated techniques are used for projects with higher complexity.
Earned Value Analysis
A method that is widely used for medium- and high-complexity projects is the earned value manage-
ment (EVM) method. EVM is a method of periodically comparing the budgeted costs with the actual
costs during the project. It combines the scheduled activities with detailed cost estimates of each activity.
It allows for partial completion of an activity if some of the detailed costs associated with the activity
have been paid but others have not.
The budgeted cost of work scheduled (BCWS) comprises the detailed cost estimates for each activ-
ity in the project. The amount of work that should have been done by a particular date is the planned
value (PV). These terms are used interchangeably by some sources, but the planned value term is used
in formulas to refer to the sum of the budgeted cost of work up to a particular point in the project, so we
will make that distinction in the definitions in this text for clarity.
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Example: Planned Value on Day Six of John’s Move
On day six of the project, John should have taken his friends to lunch and purchased the packing materials.
The portion of the BCWS that should have been done by that date (the planned value) is shown in Table 12.3.
This is the planned value for day six of the project.
Table 12.3 Planned Value for Lunch and Packing Materials
Description Quantity Cost
Lunch 3 $45.00
Small Boxes 10 $17.00
Medium Boxes 15 $35.25
Large Boxes 7 $21.00
Extra Large Boxes 7 $26.25
Short Hanger Boxes 3 $23.85
Box Tape 2 $7.70
Markers 2 $3.00
Mattress/Spring Bags 2 $5.90
Life Straps per Pair 1 $24.95
Bubble Wrap 1 $19.95
Furniture Pads 4 $31.80
Total: $261.65
The budgeted cost of work performed (BCWP) is the budgeted cost of work scheduled that has been
done. If you sum the BCWP values up to that point in the project schedule, you have the earned value
(EV). The amount spent on an item is often more or less than the estimated amount that was budgeted
for that item. The actual cost (AC) is the sum of the amounts actually spent on the items.
Example: Comparing PV, EV, and AC in John’s Move on Day Six
Dion and Carlita were both trying to lose weight and just wanted a nice salad. Consequently, the lunch cost
less than expected. John makes a stop at a store that sells moving supplies at discount rates. They do not have
all the items he needs, but the prices are lower than those quoted by the moving company. They have a very
good price on lifting straps so he decides to buy an extra pair. He returns with some of the items on his list,
12. Budget Planning 138

but this phase of the job is not complete by the end of day six. John bought half of the small boxes, all of five
other items, twice as many lifting straps, and none of four other items. John is only six days into his project,
and his costs and performance are starting to vary from the plan. Earned value analysis gives us a method for
reporting that progress (Table 12.4).
Table 12.4 Planned Value, Earned Value, and Actual Cost
Budgeted Cost of Work
Scheduled (BCWS)
Budgeted Cost of Work
Performed (BCWP) Actual Cost (AC)
Description Quantity Cost Quantity Cost Quantity Cost
Lunch 3 $45.00 3 $45.00 3 $35.00
Small Boxes 10 $7.00 5 $8.50 5 $9.50
Medium Boxes 15 $35.25 15 $35.25 15 $28.00
Large Boxes 7 $21.00
Extra-Large Boxes 7 $26.25
Short-Hanger
Boxes 3 $23.85
Box Tape 2 $7.70 2 $7.70 2 $5.50
Markers 2 $3.00 2 $3.00 2 $2.00
Mattress/Spring
Bags 2 $5.90 2 $5.90 2 $7.50
Life Straps per Pair 1 $24.95 1 $24.95 2 38.50
Bubble Wrap 1 $19.95
Furniture Pads 4 $31.80 4 $31.80 4 28.50
The original schedule called for spending $261.65 (PV) by day six. The amount of work done was worth
$162.10 (EV) according to the estimates, but the actual cost was only $154.50 (AC).
Schedule Variance
The project manager must know if the project is on schedule and within the budget. The difference
between planned and actual progress is the variance. The schedule variance (SV) is the difference
between the earned value (EV) and the planned value (PV). Expressed as a formula, SV = EV − PV. If
less value has been earned than was planned, the schedule variance is negative, which means the project
is behind schedule.
Example: Schedule Variance on John’s Move
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Planning for John’s move calls for spending $261.65 by day six, which is the planned value (PV). The dif-
ference between the planned value and the earned value is the scheduled variance (SV). The formula is SV =
EV − PV. In this example, SV = $162.10 − $261.65 = ($99.55) A negative SV indicates the project is behind
schedule.
The difference between the earned value (EV) and the actual cost (AC) is the cost variance (CV).
Expressed as a formula, CV = EV −AC. A positive CV indicates the project is under budget.
Example: Cost Variance on John’s Move
The difference between the earned value of $162.10 and the actual cost of $154.50 is the cost variance (CV).
The formula is CV = EV − AC. In this example, CV = $162.10 − $154.50 = $7.60.
Variance Indexes for Schedule and Cost
The schedule variance and the cost variance provide the amount by which the spending is behind (or
ahead of) schedule and the amount by which a project is exceeding (or not fully using) its budget. They
do not give an idea of how these amounts compare with the total budget.
The ratio of earned value to planned value gives an indication of how much of the project is com-
pleted. This ratio is the schedule performance index (SPI). The formula is SPI = EV ÷ PV. In the John’s
move example, the SPI equals 0.62 (SPI = $162.10 ÷ $261.65 = 0.62) An SPI value less than 1 indicates
the project is behind schedule.
The ratio of the earned value to the actual cost is the cost performance index (CPI). The formula is
CPI = EV ÷ AC.
Example: Cost Performance Index of John’s Move
In the John’s move example, CPI = $162.10 ÷ $154.50 = 1.05. A value greater than 1 indicates that the project
is under budget.
12. Budget Planning 140

Figure 12.3 Schedule variance and cost variance.
The cost variance of positive $7.60 and the CPI value of 1.05 tell John that he is getting more value for his
money than planned for the tasks scheduled by day six. The schedule variance (SV) of negative $99.55 and
the schedule performance index (SPI) of 0.62 tell him that he is behind schedule in adding value to the project
(Figure 12.3).
During the project, the manager can evaluate the schedule using the schedule variance (SV) and the
schedule performance index (SPI), and the budget using the cost variance (CV) and the cost performance
index (CPI).
Estimated Cost to Complete the Project
Part way through the project, the manager evaluates the accuracy of the cost estimates for the activities
that have taken place and uses that experience to predict how much money it will take to complete the
unfinished activities—the estimate to complete (ETC).
To calculate the ETC, the manager must decide if the cost variance observed in the estimates to that
point are representative of the future. For example, if unusually bad weather causes increased cost dur-
ing the first part of the project, it is not likely to have the same effect on the rest of the project. If the
manager decides that the cost variance up to this point in the project is atypical—not typical—then the
estimate to complete is the difference between the original budget for the entire project—the budget at
completion (BAC)—and the earned value (EV) up to that point. Expressed as a formula, ETC = BAC −
EV.
Example: Estimate to Complete John’s Move
For his move, John was able to buy most of the items at a discount house that did not have a complete inven-
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tory, and he chose to buy an extra pair of lift straps. He knows that the planned values for packing materials
were obtained from the price list at the moving company where he will have to buy the rest of the items, so
those two factors are not likely to be typical of the remaining purchases. The reduced cost of lunch is unre-
lated to the future costs of packing materials, truck rentals, and hotel fees. John decides that the factors that
caused the variances are atypical. He calculates that the estimate to complete (ETC) is the budget at comple-
tion ($1,534) minus the earned value at that point ($162.10), which equals $1,371.90. Expressed as a formula,
ETC = $1,534 − $162.10 = $1,371.90.
If the manager decides that the cost variance is caused by factors that will affect the remaining activities,
such as higher labour and material costs, then the estimate to complete (ETC) needs to be adjusted by
dividing it by the cost performance index (CPI). For example, if labour costs on the first part of a project
are estimated at $80,000 (EV) and they actually cost $85,000 (AC), the cost performance (CPI) will be
0.94. (Recall that the CPI = EV ÷ AC.)
To calculate the estimate to complete (ETC), assuming the cost variance on known activities is typical
of future cost, the formula is ETC = (BAC − EV) ÷ CPI. If the budget at completion (BAC) of the project
is $800,000, the estimate to complete is ($800,000 − $80,000) ÷ 0.94 = $766,000.
Estimate Final Project Cost
If the costs of the activities up to the present vary from the original estimates, this will affect the total
estimate of the project cost. The new estimate of the project cost is the estimate at completion (EAC).
To calculate the EAC, the estimate to complete (ETC) is added to the actual cost (AC) of the activities
already performed. Expressed as a formula, EAC = AC + ETC.
Example: Estimate at Completion for John’s Move
The revised estimate at completion (EAC) for John’s move at this point in the process is EAC = $154.50 +
$1,371.90 = $1,526.40.
12. Budget Planning 142

Table 12.5 Summary of Terms and Formulas for Earned Value Analysis
Term Acronym Description Formula John’s Move
Actual Cost AC
The money actually
spent on projects up
to the present.
– $154.50
Budget at
Completion BAC
Original budget for
the project (same sa
BCWS)
– $1,534.00
Cost Performance
Index CPI
Ratio of earned value
to actual cost CPI = EV ÷ AC 1.05
Cost Variance CV
Difference between
earned value and
actual cost
CV = EV − AC $7.60
Earned Value EV
Sum of estimates for
work actually done
up to the present
– $162.10
Estimate at
Completion EAC
Revised estimate of
total project cost EAC = AC + ETC $1,526.40
Estimate to Complete ETC
Money to complete
the project if early
cost variance is
atypical
ETC = (BAC − EV)
÷ CPI n/a
Planned Vale PV
Sum of the estimates
for work done up to
the present
– $261.65
Schedule Performnce
Index SPI
Ratio of earned value
to planned value SPI = EV ÷ PV 0.62
Schedule Variance SV
Difference between
earned value and
planned value
SV = EV − PV $99.55
To summarize (Table 12.5):
• Extra money is allocated in a contingency fund to deal with activities where costs exceed
estimates. Funds are allocated in a management reserve in case a significant opportunity or
challenge occurs that requires change of scope but funds are needed immediately before a
scope change can typically be negotiated.
• Schedule variance is the difference between the part of the budget that has been spent so far
(EV) versus the part that was planned to be spent by now (PV). Similarly, the cost variance is
the difference between the EV and the actual cost (AC).
• The schedule performance index (SPI) is the ratio of the earned value and the planned value.
The cost performance index (CPI) is the ratio of the earned value (EV) to the actual cost
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(AC).
• The formula used to calculate the amount of money needed to complete the project (ETC)
depends on whether or not the cost variance to this point is expected to continue (typical) or
not (atypical). If the cost variance is atypical, the ETC is simply the original total budget
(BAC) minus the earned value (EV). If they are typical of future cost variances, the ETC is
adjusted by dividing the difference between BAC and EV by the CPI.
• The final budget is the actual cost (AC) to this point plus the estimate to complete (ETC).
Establishing a Budget
Once you have broken your project down into activities, you will be able to calculate your overall project
costs by estimating and totaling the individual activity costs.
This process of subtotaling costs by category or activity is called cost aggregation.
Budget Timeline
Costs are associated with activities, and since each activity has a start date and a duration period, it
is possible to calculate how much money will be spent by any particular date during the project. The
money needed to pay for a project is usually transferred to the project account shortly before it is needed.
These transfers must be timed so that the money is there to pay for each activity without causing a delay
in the start of the activity. If the money is transferred too far in advance, the organization will lose the
opportunity to use the money somewhere else, or they will have to pay unnecessary interest charges if
the money is borrowed. A schedule of money transfers is created that should match the need to pay for
the activities. The process of matching the schedule of transfers with the schedule of activity payments
is called reconciliation. Refer to Figure 12.4, which shows the costs of 10 major activities in a project.
Funds are transferred into the project account four times. Notice that during most of the project, there
were more funds available than were spent except at activity 6 when all the available funds were spent.
12. Budget Planning 144

Figure 12.4: Fund transfers and expenditures.
In the project budget profile shown in Figure 12.4, there is no margin for error if the total of the first six
activities exceeds the amount of funding at that point in the project.
Contractual agreements with vendors often require partial payment of their costs during the project.
Those contracts can be managed more conveniently if the unit of measure for partial completion is the
same as that used for cost budgeting. For example, if a graphic designer is putting together several pieces
of artwork for a textbook, their contract may call for partial payment after 25% of their total number of
drawings is complete.
Text Attributions
This chapter of Project Management is a derivative of the following texts:
• Project Management for Instructional Designers by Wiley, et. al. © CC BY-NC-SA (Attribu-
tion-NonCommercial-ShareAlike).
Media Attributions
• Parametric Cost Estimate © CC BY-NC-SA (Attribution NonCommercial ShareAlike)
• Sum of Detailed Costs by Type by Wiley, et al © CC BY-NC-SA (Attribution NonCommer-
cial ShareAlike)
• Schedule Variance Cost Variance by Wiley et al © CC BY-NC-SA (Attribution NonCommer-
cial ShareAlike)
• Fund Transfers and Expenditures by Wiley et al © CC BY-NC-SA (Attribution NonCommer-
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cial ShareAlike)
12. Budget Planning 146

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13. Procurement Management
Procurement management follows a logical order. First, you plan what you need to contract; then you
plan how you’ll do it. Next, you send out your contract requirements to sellers. They bid for the chance
to work with you. You pick the best one, and then you sign the contract with them. Once the work begins,
you monitor it to make sure that the contract is being followed. When the work is done, you close out
the contract and fill out all the paperwork.
You need to start with a plan for the whole project. Before doing anything else, you need to think
about all of the work that you will contract out for your project. You will want to plan for any purchases
and acquisitions. Here’s where you take a close look at your needs to be sure that contracting is neces-
sary. You figure out what kinds of contracts make sense for your project, and you try to define all of the
parts of the project that will be contracted out.
Contract planning is where you plan out each individual contract for the project work. You work out
how you’ll manage the contract, what metrics it will need to meet to be considered successful, how
you’ll pick a seller, and how you’ll administer the contract once the work is happening.
The procurement management plan details how the procurement process will be managed. It includes
the following information:
• The types of contracts you plan to use and any metrics that will be used to measure the con-
tractors’ performance
• The planned delivery dates for the work or products you are contracting
• The company’s standard documents you will use
• The number of vendors or contractors involved and how they will be managed
• How purchasing may impact the constraints and assumptions of the project plan
• The coordination of purchasing lead times with the development of the project schedule
• The identification of prequalified sellers (if known)
The procurement management plan, like all other management plans, becomes a subsidiary of the project
management plan. Some tools and techniques you may use during the procurement planning stage
include make-or-buy analysis and definition of the contract type.
Make-or-Buy Analysis
This means figuring out whether or not you should be contracting the work or doing it yourself. It could
also mean deciding whether to build a solution to your problem or buy one that is already available.
Most of the same factors that help you make every other major project decision will help you with this
one. How much does it cost to build it as opposed to buying it? How will this decision affect the scope
of your project? How will it affect the project schedule? Do you have time to do the work and still meet
your commitments? As you plan out what you will and won’t contract, you need to think through your
reasoning very carefully.
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There are some resources (like heavy equipment) that your company can buy, rent, or lease depending
on the situation. You’ll need to examine leasing-versus-buying costs and determine the best way to go
forward.
Contract Types
You should know a little bit about the major kinds of contracts available to you (the client) so that you
choose the one that creates the most fair and workable deal for you and the contractor. Some contracts
are fixed price: no matter how much time or effort goes into them, the client always pay the same. In
Figure 13.1 the cost to the client stays the same, but as more effort is exerted the profit to the contractor
goes down. Some are cost reimbursable also called cost plus. This is where the seller charges you for
the cost of doing the work plus some fee or rate. Table 13.1 illustrates this by showing that as efforts
increase, costs to the client go up but the contractor’s profits stay the same. The third major kind of con-
tract is time and materials. That’s where the client pays a rate for the time spent working on the project
and also pays for all the materials used to do the work. Figure 13.2 shows that as costs to the client go
up, so does the profit for the contractor.
Fixed-Price Contracts
The fixed-price contract is a legal agreement between the project organization and an entity (person or
company) to provide goods or services to the project at an agreed-on price. The contract usually details
the quality of the goods or services, the timing needed to support the project, and the price for deliv-
ering goods or services. There are several variations of the fixed-price contract. For commodities and
goods and services where the scope of work is very clear and not likely to change, the fixed-price con-
tract offers a predictable cost. The responsibility for managing the work to meet the needs of the pro-
ject is focused on the contractor. The project team tracks the quality and schedule progress to ensure
the contractors will meet the project needs. The risks associated with fixed-price contracts are the costs
associated with project change. If a change occurs on the project that requires a change order from the
contractor, the price of the change is typically very high. Even when the price for changes is included in
the original contract, changes on a fixed-price contract will create higher total project costs than other
forms of contracts because the majority of the cost risk is transferred to the contractor, and most contrac-
tors will add a contingency to the contract to cover their additional risk.
13. Procurement Management 148

Figure 13.1: In a fixed-price contract, the cost to the
client is constant regardless of effort applied or
delivery date.
Fixed-price contracts require the availability of at least two or more suppliers that have the qualifications
and performance histories that ensure the needs of the project can be met. The other requirement is a
scope of work that is most likely not going to change. Developing a clear scope of work based on good
information, creating a list of highly qualified bidders, and developing a clear contract that reflects that
scope of work are critical aspects of a good fixed-priced contract.
If the service provider is responsible for incorporating all costs, including profit, into the agreed-on
price, it is a fixed-total-cost contract. The contractor assumes the risks for unexpected increases in
labour and materials that are needed to provide the service or materials and in the materials and timeli-
ness needed.
The fixed-price contract with price adjustment is used for unusually long projects that span years.
The most common use of this type of contract is the inflation-adjusted price. In some countries, the
value of its local currency can vary greatly in a few months, which affects the cost of local materials
and labour. In periods of high inflation, the client assumes the risk of higher costs due to inflation, and
the contract price is adjusted based on an inflation index. The volatility of certain commodities can also
be accounted for in a price-adjustment contract. For example, if the price of oil significantly affects the
costs of the project, the client can accept the oil price volatility risk and include a provision in the con-
tract that would allow the contract price adjustment based on a change in the price of oil.
The fixed-price contract with incentive fee provides an incentive for performing on the project
above the established baseline in the contract. The contract might include an incentive for completing
the work on an important milestone for the project. Often contracts have a penalty clause if the work
is not performed according to the contract. For example, if the new software is not completed in time
to support the implementation of the training, the contract might penalize the software company a daily
amount of money for every day the software is late. This type of penalty is often used when the software
is critical to the project and the delay will cost the project significant money.
If the service or materials can be measured in standard units, but the amount needed is not known
accurately, the price per unit can be fixed—a fixed-unit-price contract. The project team assumes the
responsibility of estimating the number of units used. If the estimate is not accurate, the contract does
not need to be changed, but the project will exceed the budgeted cost.
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Table 13.1 Fixed price contracts and characteristics
Type Known Scope Share of Risk
Incentive for
Meeting
Milestones
Predictability of
Cost
Fixed total cost Very High All contractor Low Very high
Fixed unit price High Mostly project Low High
Fixed price with
incentive fee High Mostly project High Medium-high
Fixed fee with price
adjustment High Mostly project Low Medium
Cost-Reimbursable Contracts
In a cost-reimbursable contract, the organization agrees to pay the contractor for the cost of performing
the service or providing the goods. Cost-reimbursable contracts are also known as cost-plus contracts.
Cost-reimbursable contracts are most often used when the scope of work or the costs for performing the
work are not well known. The project uses a cost-reimbursable contract to pay the contractor for allow-
able expenses related to performing the work. Since the cost of the project is reimbursable, the contrac-
tor has much less risk associated with cost increases. When the costs of the work are not well known,
a cost-reimbursable contract reduces the amount of money the bidders place in the bid to account for
the risk associated with potential increases in costs. The contractor is also less motivated to find ways to
reduce the cost of the project unless there are incentives for supporting the accomplishment of project
goals.
Figure 13.2: In a cost-reimbursable or cost-plus
contract, the contractor is guaranteed a fee, but the
client’s costs can increase based on effort.
Cost-reimbursable contracts require good documentation of the costs that occurred on the project to
ensure that the contractor gets paid for all the work performed and to ensure that the organization is not
paying for something that was not completed. The contractor is also paid an additional amount above
the costs. There are several ways to compensate the contractor.
• A cost-reimbursable contract with a fixed fee provides the contractor with a fee, or profit
amount, that is determined at the beginning of the contract and does not change.
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• A cost-reimbursable contract with a percentage fee pays the contractor for costs plus a
percentage of the costs, such as 5% of total allowable costs. The contractor is reimbursed for
allowable costs and is paid a fee.
• A cost-reimbursable contract with an incentive fee is used to encourage performance in
areas critical to the project. Often the contract attempts to motivate contractors to save or
reduce project costs. The use of the cost reimbursable contract with an incentive fee is one
way to motivate cost-reduction behaviours.
• A cost-reimbursable contract with award fee reimburses the contractor for all allowable
costs plus a fee that is based on performance criteria. The fee is typically based on goals or
objectives that are more subjective. An amount of money is set aside for the contractor to
earn through excellent performance, and the decision on how much to pay the contractor is
left to the judgment of the project team. The amount is sufficient to motivate excellent perfor-
mance.
On small activities that have a high uncertainty, the contractor might charge an hourly rate for labour,
plus the cost of materials, plus a percentage of the total costs. This type of contract is called time and
materials (T&M). Time is usually contracted on an hourly rate basis and the contractor usually submits
time sheets and receipts for items purchased on the project. The project reimburses the contractor for the
time spent based on the agreed-on rate and the actual cost of the materials. The fee is typically a percent-
age of the total cost.
Figure 13.3: In a time-and-materials contract, the
profit to the contractor increases with increased
effort, as does the costs to the client.
T&M contracts are used on projects for work that is smaller in scope and has uncertainty or risk. The
project, rather than the contractor, assumes the risk. Since the contractor will most likely include contin-
gency in the price of other types of contracts to cover the high risk, T&M contracts provide lower total
cost to the project.
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Table 13.2 Cost-reimbursable contracts
Cost Reimbursable
(CR) Known Scope Share of Risk
Incentive for
Meeting
Milestones
Predictability of
Cost
CR with fixed fee Medium Mostly project Low Medium-high
CR with percentage
fee Medium Mostly project Low Medium-high
CR with incentive
fee Medium Mostly project High Medium
CR with award fee Medium Mostly project High Medium
Time and Materials Low All project Low Low
To minimize the risk to the project, the contractor typically includes a not-to-exceed amount, which
means the contract can only charge up to the agreed amount. The T&M contract allows the project to
make adjustments as more information is available. The final cost of the work is not known until suffi-
cient information is available to complete a more accurate estimate.
Progress Payments and Change Management
Vendors and suppliers usually require payments during the life of the contract. On contracts that last
several months, the contractor will incur significant cost and will want the project to pay for these costs
as early as possible. Rather than wait until the end of the contract, a schedule of payments is typically
developed as part of the contract and is connected to the completion of a defined amount of work or
project milestones. These payments made before the end of the project and based on the progress of the
work are called progress payments. For example, the contract might develop a payment schedule that
pays for the design of the curriculum, then the development of the curriculum, and then a final payment
is made when the curriculum is completed and accepted. In this case there would be three payments
made. There is a defined amount of work to be accomplished, a time frame for accomplishing that work,
and a quality standard the work must achieve before the contractor is paid for the work.
Just as the project has a scope of work that defines what is included in the project and what work is
outside the project, vendors and suppliers have a scope of work that defines what they will produce or
supply to the company. (Partners typically share the project scope of work and may not have a sepa-
rate scope of work.) Often changes occur on the project that require changes in the contractor’s scope
of work. How these changes will be managed during the life of the project is typically documented in
the contract. Capturing these changes early, documenting what changed and how the change impacted
the contract, and developing a change order (a change to the contract) are important to maintaining the
progress of the project. Conflict among team members may arise when changes are not documented or
when the team cannot agree on the change. Developing and implementing an effective change manage-
ment process for contractors and key suppliers will minimize this conflict and the potential negative
effect on the project.
13. Procurement Management 152

Procurement Process
The project procurement cycle reflects the procurement activities from the decision to purchase the
material or service through to the payment of bills and closing of procurement contracts.
Procurement Plan
After the decision has been made to purchase goods or outsource services, the procurement team devel-
ops a plan that includes the following:
• Selecting the appropriate relationships and contract approaches for each type of purchased
goods or outsourced service
• Preparing requests for quotes (RFQs) and requests for proposals (RFPs) and evaluating part-
nership opportunities
• Evaluating RFQs, RFPs, and partnerships
• Awarding and signing contracts
• Managing quality and timely performance
• Managing contract changes
• Closing contracts
Depending on the complexity level of the project, each of these steps can take either hours or sometimes
weeks of work to complete. Each of these steps is also included in the project master schedule. The
time involved in the procurement cycle can influence the scheduling of critical activities, including the
decision to self-perform the work or contract the work to others. The delivery dates for equipment and
materials and the work completion dates for contracted works are placed on the project schedule. Any
procurement activities that create a project delay or fall on the project critical path may require special
attention.
Selecting the Contract Approach
The technical teams typically develop a description of the work that will be outsourced. From this infor-
mation, the project management team answers the following questions:
• Is the required work or materials a commodity, customized product or service, or unique skill
or relationship?
• What type of relationship is needed: supplier, vendor, or partnership?
• How should the supplier, vendor, or potential partner be approached: RFQ, RFP, or personal
contact?
• How well known is the scope of work?
• What are the risks and which party should assume which types of risk?
• Does the procurement of the service or goods affect activities on the project schedule’s criti-
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cal path and how much float is there on those activities?
• How important is it to be sure of the cost in advance?
The procurement team uses the answers to the first three questions listed above to determine the
approach to obtaining the goods or services and the remaining questions to determine what type of con-
tract is most appropriate.
A key factor in selecting the contract approach is determining which party will take the most risk. The
team determines the level of risk that will be managed by the project and what risks will be transferred
to the contractor. Typically, the project management team wants to manage the project risk, but in some
cases, contractors have more expertise or control that enable them to better manage the risk associated
with the contracted work.
Soliciting Bids
A solicitation is the process of requesting a price and supporting information from bidders. The solici-
tation usually takes the form of either an RFQ or an RFP. Partnerships are pursued and established dif-
ferently on a case-by-case basis by senior management.
Qualifying Bidders
Potential bidders are people or organizations capable of providing the materials or performing the work
required for the project. On smaller, less complex projects, the parent company typically has a list of
suppliers and vendors that have successfully provided goods and services in the past, and the project has
access to the performance record of companies on that list. On unique projects, where no supplier lists
exist, the project team develops a list of potential suppliers and then qualifies them to become eligible to
bid on project work. Eligible bidders are placed on the bidders list and provided with a schedule of when
work on the project will be put out for bid.
The eligibility of a supplier is determined by the ability to perform the work in a way that meets pro-
ject requirements and demonstrates financial stability. Ability to perform the work includes the ability to
meet quality specifications and the project schedule. During times when economic activity is high in a
region, many suppliers become busy and stretch their resources. The project team investigates the poten-
tial suppliers, before they are included on the bidder’s list, to ensure that they have the capacity and track
record to meet deadlines.
The potential supplier must also be financially stable to be included on the bidders list. A credit check
or a financial report from Dun and Bradstreet (D&B)—a well-known provider of financial informa-
tion about individual companies—will provide the project with information about the potential bidder’s
financial status. D&B services include the following:
• D&B proprietary rankings and predictive creditworthiness scores
• Public filings, including suits, liens, judgments, and UCC (uniform commercial code) fil-
ings—standardized financial disclosure documents that conform to the uniform commercial
code
• Company financial statements and history
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Request for Quote
An RFQ focuses on price. The type of materials or service is well defined and can be obtained from
several sources. The bidder that can meet the project quality and schedule requirements usually wins the
contract by quoting the lowest price.
Request for Proposal
An RFP accounts for price but focuses on meeting the project quality or schedule requirements. The
process of developing a proposal in response to an RFP can be very expensive for the bidder, and the
project team should not issue an RFP to a company that is not eligible to win the bid.
Evaluating Bids
Evaluation of bids in response to RFQs for commodity items and services is heavily graded for price. In
most cases, the lowest total price will win the contract. The total price will include the costs of the goods
or services, any shipping or delivery costs, the value of any warranties, and any additional service that
adds value to the project.
The evaluation of bids based on RFPs is more complex. The evaluation of proposals includes the price
and also an evaluation of the technical approach chosen by the bidder. The project team evaluating the
proposal must include people with the expertise to understand the technical aspects of the various pro-
posal options and the value of each proposal to the project. On more complex projects, the administra-
tive part of the proposal is evaluated and scored by one team, and the technical aspect of the proposal is
evaluated by another team. The project team combines the two scores to determine the best proposal for
the project.
Awarding the Contract
After the project team has selected the bidder that provides the best value for the project, a project rep-
resentative validates all conditions of the bid and the contract with the potential contractor. Less com-
plex awards, like contracts for printed materials, require a reading and signing of the contract to ensure
that the supplier understands the contract terms and requirements of the project schedule. More complex
projects require a detailed discussion of the goals, the potential barriers to accomplishing those goals,
the project schedule and critical dates, and the processes for resolving conflicts and improving work
processes.
Managing the Contracts
The contract type determines the level of effort and the skills needed to manage the contract. The man-
ager of supplier contracts develops detailed specifications and ensures compliance with these specifi-
cations. The manager of vendor contracts ensures that the contractors bidding on the work have the
skills and capacity to accomplish the work according to the project schedule and tracks the vendor’s
performance against the project needs, supplying support and direction when needed. The manager of
partnering arrangements develops alignment around common goals and work processes. Each of these
approaches requires different skills and various degrees of effort.
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Items that take a long time to acquire—long-lead items—receive early attention by the project lead-
ership. Examples of long-lead items are equipment that is designed and built specifically for the pro-
ject, curriculum that is created for training a new workforce, and a customized bioreactor for a biotech
project. These items might require weeks, months, or years to develop and complete. The project team
identifies long-lead items early to begin the procurement activities as soon as possible because those
procured through the normal procurement cycle may cause delays in the project.
After the contract is awarded, the project team tracks the performance of the contractor against per-
formance criteria in the contract and his or her contribution to the performance of the project. Usually,
contractors deliver the product or service that meets the quality expectations and supports the project
schedule. Typically, there are also one or two contractors that do not perform to project expectations.
Some project managers will refer to the contract and use it to attempt to persuade the contractor to
improve performance or be penalized. Other project managers will explore with the contractor creative
ways to improve performance and meet project requirements. The contract management allows for both
approaches to deal with non`-performing contractors, and the project team must assess what method is
most likely to work in each situation.
Managing contractor performance on a project is as important to the overall project outcomes as the
work performed by the project team.
Logistics and Expediting
Equipment and materials that are purchased for use on the project must be transported, inventoried,
warehoused, and often secured. This area of expertise is called logistics. The logistics for the project can
be managed by the project team or can be included in the RFP or RFQ. On international projects, mate-
rials may be imported, and the procurement team manages the customs process. On smaller projects, the
logistical function is often provided by the parent company. On larger projects, these activities are typ-
ically contracted to companies that specialize in logistical services. On larger, more complex projects,
the procurement team will include logistical expertise.
The project work often depends on materials procured for the project. The delivery of these materials
influences the scheduling of the project, and often some materials are needed earlier than normal pro-
curement practices would deliver. On long-lead items, the project schedule is included in the contracting
plans and contractors must explain how they will support the project schedule.
On large, complex projects, critical items might be scheduled for delivery after they are needed on the
project. The procurement team then explores ideas with the contractor to expedite the manufacturing or
transportation of the equipment or materials. The contract can often place a priority on the fabrication
of the equipment and delivery of the equipment to meet the project schedule. The project logistics team
can also explore ways of shortening the transportation time. For example, a project in Argentina flew
some critical equipment from Sweden rather than transport the equipment by ship to save several weeks
in transit. The logistics costs were higher, but the overall value to the project was greater.
Text Attributions
This chapter of Project Management is a derivative of the following text:
• Project Management for Instructional Designers by Wiley et. al. © CC BY-NC-SA (Attribu-
tion-NonCommercial-ShareAlike)
13. Procurement Management 156

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Media Attributions
• Fixed Price Contract by Barron & Barron Project Management for Scientists and Engineers
© CC BY (Attribution)
• cost-reimbursable-contract by Barron & Barron Project Management for Scientists and Engi-
neers © CC BY (Attribution)
• time-and-materials-contract by Barron & Barron Project Management for Scientists and
Engineers © CC BY (Attribution)
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14. Quality Planning
It’s not enough to make sure you get a project done on time and under budget. You need to be sure you
make the right product to suit your stakeholders’ needs. Quality means making sure that you build what
you said you would and that you do it as efficiently as you can. And that means trying not to make too
many mistakes and always keeping your project working toward the goal of creating the right product.
Everybody “knows” what quality is. But the way the word is used in everyday life is a little differ-
ent from how it is used in project management. Just like the triple constraint (scope, cost, and schedule),
you manage quality on a project by setting goals and taking measurements. That’s why you must under-
stand the quality levels your stakeholders believe are acceptable, and ensure that your project meets
those targets, just like it needs to meet their budget and schedule goals.
Customer satisfaction is about making sure that the people who are paying for the end product are
happy with what they get. When the team gathers requirements for the specification, they try to write
down all of the things that the customers want in the product so that you know how to make them happy.
Some requirements can be left unstated. Those are the ones that are implied by the customer’s explicit
needs. For example, some requirements are just common sense (e.g., a product that people hold can’t be
made from toxic chemicals that may kill them). It might not be stated, but it’s definitely a requirement.
“Fitness to use” is about making sure that the product you build has the best design possible to fit
the customer’s needs. Which would you choose: a product that’s beautifully designed, well constructed,
solidly built, and all around pleasant to look at but does not do what you need, or a product that does
what you want despite being ugly and hard to use? You’ll always choose the product that fits your needs,
even if it’s seriously limited. That’s why it’s important that the product both does what it is supposed to
do and does it well. For example, you could pound in a nail with a screwdriver, but a hammer is a better
fit for the job.
Conformance to requirements is the core of both customer satisfaction and fitness to use, and is a
measure of how well your product does what you intend. Above all, your product needs to do what you
wrote down in your requirements document. Your requirements should take into account what will sat-
isfy your customer and the best design possible for the job. That means conforming to both stated and
implied requirements.
In the end, your product’s quality is judged by whether you built what you said you would build.
Quality planning focuses on taking all of the information available to you at the beginning of the pro-
ject and figuring out how you will measure quality and prevent defects. Your company should have a
quality policy that states how it measures quality across the organization. You should make sure your
project follows the company policy and any government rules or regulations on how to plan quality for
your project.
You need to plan which activities you will use to measure the quality of the project’s product. And
you’ll need to think about the cost of all the quality-related activities you want to do. Then you’ll need
to set some guidelines for what you will measure against. Finally, you’ll need to design the tests you will
run when the product is ready to be tested.
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Quality and Grade
According to the International Organization for Standardization (ISO), quality is “the degree to which
a set of inherent characteristics fulfill requirements.” The requirements of a product or process can be
categorized or given a grade that will provide a basis for comparison. The quality is determined by how
well something meets the requirements of its grade.
For most people, the term quality also implies good value—getting your money’s worth. For example,
even low-grade products should still work as expected, be safe to use, and last a reasonable amount of
time. Consider the following examples.
Example: Quality of Gasoline Grades
Petroleum refiners provide gasoline in several different grades based on the octane rating because higher
octane ratings are suitable for higher compression engines. Gasoline must not be contaminated with dirt or
water, and the actual performance of the fuel must be close to its octane rating. A shipment of low-grade gaso-
line graded as 87 octane that is free of water or other contaminants would be of high quality, while a shipment
of high-grade 93 octane gas that is contaminated with dirt would be of low quality.
Example: Quality of Furniture Packing
John has antique furniture in excellent condition that was left to him by his grandmother. The pieces are impor-
tant to John for sentimental reasons, and they are valuable. John decides to hire movers (high-grade profession-
als) to load his furniture into the truck using appropriate padding and restraints to prevent dents and scratches
during the move. John’s standard for high quality is that no observable damage occurs to his large pieces of
furniture, especially the antiques. If the furniture arrives in his new apartment without a single dent, scratch, or
other damage, the activity will be of high quality. John’s standard for packing his kitchen is lower. His dishes
are old and cheap, so he decides to trust his inexperienced friends (low-grade amateurs) to help him pack his
kitchen. If a few of the dishes or glassware are chipped or broken in the process, the savings in labour cost will
more than make up for the loss and will be a good value.
Statistics
Determining how well products meet grade requirements is done by taking measurements and then inter-
preting those measurements. Statistics—the mathematical interpretation of numerical data—are useful
when interpreting large numbers of measurements and are used to determine how well the product meets
a specification when the same product is made repeatedly. Measurements made on samples of the prod-
uct must be within control limits—the upper and lower extremes of allowable variation—and it is up to
management to design a process that will consistently produce products between those limits.
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Instructional designers often use statistics to determine the quality of their course designs. Student
assessments are one way in which instructional designers are able to tell whether learning occurs within
the control limits.
Example: Setting Control Limits
A petroleum refinery produces large quantities of fuel in several grades. Samples of the fuels are extracted
and measured at regular intervals. If a fuel is supposed to have an 87 octane performance, samples of the fuel
should produce test results that are close to that value. Many of the samples will have scores that are different
from 87. The differences are due to random factors that are difficult or expensive to control. Most of the sam-
ples should be close to the 87 rating and none of them should be too far off. The manufacturer has grades of 85
and 89, so they decide that none of the samples of the 87 octane fuel should be less than 86 or higher than 88.
If a process is designed to produce a product of a certain size or other measured characteristic, it is
impossible to control all the small factors that can cause the product to differ slightly from the desired
measurement. Some of these factors will produce products that have measurements that are larger than
desired and some will have the opposite effect. If several random factors are affecting the process, they
tend to offset each other, and the most common results are near the middle of the range; this phenome-
non is called the central limit theorem.
If the range of possible measurement values is divided equally into subdivisions called bins, the mea-
surements can be sorted, and the number of measurements that fall into each bin can be counted. The
result is a frequency distribution that shows how many measurements fall into each bin. If the effects
that are causing the differences are random and tend to offset each other, the frequency distribution is
called a normal distribution, which resembles the shape of a bell with edges that flare out. The edges
of a theoretical normal distribution curve get very close to zero but do not reach zero.
Example: Normal Distribution
A refinery’s quality control manager measures many samples of 87 octane gasoline, sorts the measurements by
their octane rating into bins that are 0.1 octane wide, and then counts the number of measurements in each bin.
Then she creates a frequency distribution chart of the data, as shown in Figure 14.1.
It is common to take samples—randomly selected subsets from the total population—and measure and com-
pare their qualities, since measuring the entire population would be cumbersome, if not impossible. If the sam-
ple measurements are distributed equally above and below the centre of the distribution as they are in Figure
14.1, the average of those measurements is also the centre value that is called the mean, and is represented
in formulas by the lowercase Greek letter µ (pronounced mu). The amount of difference of the measurements
from the central value is called the sample standard deviation or just the standard deviation.
The first step in calculating the standard deviation is subtracting each measurement from the central value
(mean) and then squaring that difference. (Recall from your mathematics courses that squaring a number is
multiplying it by itself and that the result is always positive.) The next step is to sum these squared values and
14. Quality Planning 160

divide by the number of values minus one. The last step is to take the square root. The result can be thought
of as an average difference. (If you had used the usual method of taking an average, the positive and negative
numbers would have summed to zero.) Mathematicians represent the standard deviation with the lowercase
Greek letter σ (pronounced sigma). If all the elements of a group are measured, instead of just a sample, it is
called the standard deviation of the population and in the second step, the sum of the squared values is divided
by the total number of values.
Figure 14.1 Normal Distribution of Measurements
Figure 14.1 shows that the most common measurements of octane rating are close to 87 and that the other
measurements are distributed equally above and below 87. The shape of the distribution chart supports the
central limit theorem’s assumption that the factors that are affecting the octane rating are random and tend to
offset each other, which is indicated by the symmetric shape. This distribution is a classic example of a normal
distribution. The quality control manager notices that none of the measurements are above 88 or below 86 so
they are within control limits, and she concludes that the process is working satisfactorily.
Example: Standard Deviation of Gasoline Samples
The refinery’s quality control manager uses the standard deviation function in her spreadsheet program to find
the standard deviation of the sample measurements and finds that for her data, the standard deviation is 0.3
octane. She marks the range on the frequency distribution chart to show the values that fall within one sigma
(standard deviation) on either side of the mean (Figure 14.2).
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Figure 14.2: One Sigma Range. Most of the measurements are within 0.3 octane of 87.
For normal distributions, about 68.3% of the measurements fall within one standard deviation on either
side of the mean. This is a useful rule of thumb for analyzing some types of data. If the variation between
measurements is caused by random factors that result in a normal distribution, and someone tells you the
mean and the standard deviation, you know that a little over two-thirds of the measurements are within a
standard deviation on either side of the mean. Because of the shape of the curve, the number of measure-
ments within two standard deviations is 95.4%, and the number of measurements within three standard
deviations is 99.7%. For example, if someone said the average (mean) height for adult men in the United
States is 178 cm (70 inches) and the standard deviation is about 8 cm (3 inches), you would know that
68% of the men in the United States are between 170 cm (67 inches) and 186 cm (73 inches) in height.
You would also know that about 95% of the adult men in the United States were between 162 cm (64
inches) and 194 cm (76 inches) tall, and that almost all of them (99.7%) are between 154 cm (61 inches)
and 202 cm (79 inches) tall. These figures are referred to as the 68-95-99.7 rule.
Example: Gasoline within Three Standard Deviations
The refinery’s quality control manager marks the ranges included within two and three standard deviations, as
shown in Figure 14.3. Some products must have less variability than others to meet their purpose. For example,
if training designed to operate highly specialized and potentially dangerous machinery was assessed for qual-
ity, most participants would be expected to exceed the acceptable pass rate. Three standard deviations from
the control limits might be fine for some products but not for others. In general, if the mean is six standard
deviations from both control limits, the likelihood of a part exceeding the control limits from random variation
is practically zero (2 in 1,000,000,000).
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Figure 14.3 The 68-95-99.7 Rule
Example: A Step Project Improves Quality of Gasoline
A new refinery process is installed that produces fuels with less variability. The refinery’s quality control man-
ager takes a new set of samples and charts a new frequency distribution diagram, as shown in Figure 14.4. The
refinery’s quality control manager calculates that the new standard deviation is 0.2 octane. From this, she can
use the 68-95-99.7 rule to estimate that 68.3% of the fuel produced will be between 86.8 and 87.2 and that
99.7% will be between 86.4 and 87.6 octane. A shorthand way of describing this amount of control is to say
that it is a five-sigma production system, which refers to the five standard deviations between the mean and
the control limit on each side.
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Figure 14.4 Smaller Standard Deviation
Quality planning tools
High quality is achieved by planning for it rather than by reacting to problems after they are identified.
Standards are chosen and processes are put in place to achieve those standards.
Measurement Terminology
During the execution phase of the project, services and products are sampled and measured to determine
if the quality is within control limits for the requirements and to analyze causes for variations. This eval-
uation is often done by a separate quality control group, and knowledge of a few process measurement
terms is necessary to understand their reports. Several of these terms are similar, and it is valuable to
know the distinction between them.
The quality plan specifies the control limits of the product or process; the size of the range between
those limits is the tolerance. Tolerances are often written as the mean value, plus or minus the tolerance.
The plus and minus signs are written together, ±.
Example: Tolerance in Gasoline Production
The petroleum refinery chose to set its control limits for 87 octane gasoline at 86 and 88 octane. The tolerance
is 87 ± 1.
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Tools are selected that can measure the samples closely enough to determine if the measurements are
within control limits and if they are showing a trend. Each measurement tool has its own tolerances.
The choice of tolerance directly affects the cost of quality (COQ). In general, it costs more to produce
and measure products that have small tolerances. The costs associated with making products with small
tolerances for variation can be very high and not proportional to the gains. For example, if the cost of
evaluating each screen as it is created in an online tutorial is greater than delivering the product and fix-
ing any issues after the fact, then the COQ may be too high and the instructional designer will tolerate
more defects in the design.
Defining and Meeting Client Expectations
Clients provide specifications for the project that must be met for the project to be successful. Recall that
meeting project specifications is one definition of project success. Clients often have expectations that
are more difficult to capture in a written specification. For example, one client will want to be invited to
every meeting of the project and will then select the ones that seem most relevant. Another client will
want to be invited only to project meetings that need client input. Inviting this client to every meeting
will cause unnecessary frustration. Listening to the client and developing an understanding of the expec-
tations that are not easily captured in specifications is important to meeting those expectations.
Project surveys can capture how the client perceives the project performance and provide the project
team with data that are useful in meeting client expectations. If the results of the surveys indicate that the
client is not pleased with some aspect of the project, the project team has the opportunity to explore the
reasons for this perception with the client and develop recovery plans. The survey can also help define
what is going well and what needs improvement.
Sources of Planning Information
Planning for quality is part of the initial planning process. The early scope, budget, and schedule esti-
mates are used to identify processes, services, or products where the expected grade and quality should
be specified. Risk analysis is used to determine which of the risks to the project could affect quality.
Techniques
Several different tools and techniques are available for planning and controlling the quality of a project.
The extent to which these tools are used is determined by the project complexity and the quality man-
agement program in use by the client.
The following represents the quality planning tools available to the project manager.
• Cost-benefit analysis is looking at how much your quality activities will cost versus how
much you will gain from doing them. The costs are easy to measure; the effort and resources
it takes to do them are just like any other task on your schedule. Since quality activities don’t
actually produce a product, it is sometimes harder for people to measure the benefit. The
main benefits are less reworking, higher productivity and efficiency, and more satisfaction
from both the team and the customer.
• Benchmarking means using the results of quality planning on other projects to set goals for
your own. You might find that the last project in your company had 20% fewer defects than
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the one before it. You should want to learn from a project like that and put in practice any of
the ideas they used to make such a great improvement. Benchmarks can give you some refer-
ence points for judging your own project before you even start the work.
• Design of experiments is the list of all the kinds of tests you are going to run on your prod-
uct. It might list all the kinds of test procedures you’ll do, the approaches you’ll take, and
even the tests themselves. (In the software world, this is called test planning.)
• Cost of quality is what you get when you add up the cost of all the prevention and inspection
activities you are going to do on your project. It doesn’t just include the testing. It includes
any time spent writing standards, reviewing documents, meeting to analyze the root causes of
defects, reworking to fix the defects once they’re found by the team: in other words,
absolutely everything you do to ensure quality on the project. Cost of quality can be a good
number to check to determine whether your project is doing well or having trouble. Say your
company tracks the cost of quality on all of its projects; then you could tell if you are spend-
ing more or less than has been spent on other projects to get your project up to quality stan-
dards.
• Control charts can be used to define acceptable limits. If some of the functions of a project
are repetitive, statistical process controls can be used to identify trends and keep the
processes within control limits. Part of the planning for controlling the quality of repetitive
processes is to determine what the control limits are and how the process will be sampled.
• Cause-and-effect diagrams can help in discovering problems. When control charts indicate
an assignable cause for a variation, it is not always easy to identify the cause of a problem.
Discussions that are intended to discover the cause can be facilitated using a cause-and-effect
or fishbone diagram where participants are encouraged to identify possible causes of a
defect.
Example: Diagramming Quality Problems
A small manufacturing firm tries to identify the assignable causes to variations in its manufacturing line. They
assemble a team that identifies six possibilities:
• Low-quality raw materials
• Power fluctuation
• Ambient temperature
• Worker absenteeism
• Poor training
• Old equipment
Each of these possibilities are organized into a fishbone diagram in Figure 14.5:
14. Quality Planning 166

Figure 14.5 Cause-and-Effect (Fishbone) Diagram
Each branch of the diagram can be expanded to break down a category into more specific items. An engi-
neer and an electrician work on one of the branches to consider possible causes of power fluctuation. They
identify:
• Utility reliability
• Personal space heaters and large motor start up leading to over loaded circuits
• Lighting
Those items are added to their part of the fishbone diagram, as shown in Figure 14.6.
Figure 14.6 Possible Causes of Power Fluctuation
Check sheets, histograms, and Pareto charts are used to solve several quality problems. When a qual-
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ity-control issue occurs, a project manager must choose which problem to address first. One way to pri-
oritize quality problems is to determine which ones occur most frequently. These data can be collected
using a check sheet, which is a basic form on which the user can make a check in the appropriate box
each time a problem occurs or by automating the data collection process using the appropriate technol-
ogy. Once the data are collected, they can be analyzed by creating a type of frequency distribution chart
called a histogram. A true histogram is a column chart where the widths of the columns fill the avail-
able space on the x-axis axis and are proportional to the category values displayed on that axis, while the
height of the columns is proportional to the frequency of occurrences. Most histograms use one width of
column to represent a category, while the vertical axis represents the frequency of occurrences.
A variation on the histogram is a frequency distribution chart invented by economist Vilfredo Pareto
known as a Pareto chart, in which the columns are arranged in decreasing order with the most com-
mon on the left and a line added that shows the cumulative total. The combination of columns and a line
allows the user to tell at a glance which problems are most frequent and what fraction of the total they
represent.
Once you have your quality plan, you know your guidelines for managing quality on the project. Your
strategies for monitoring project quality should be included in the plan, as well as the reasons for all the
steps you are taking. It’s important that everyone on the team understand the rationale behind the metrics
being used to judge success or failure of the project.
Quality Assurance
The purpose of quality assurance is to create confidence that the quality plan and controls are working
properly. Time must be allocated to review the original quality plan and compare that plan to how quality
is being ensured during the implementation of the project.
Process Analysis
The flowcharts of quality processes are compared to the processes followed during actual operations.
If the plan was not followed, the process is analyzed and corrective action taken. The corrective action
could be to educate the people involved on how to follow the quality plan, or it could be to revise the
plan.
The experiments that sample products and processes and collect data are examined to see if they are
following statistically valid sampling techniques and that the measurement methods have small enough
tolerances to detect variation within control limits.
Because projects are temporary, there are fewer opportunities to learn and improve within a project,
especially if it has a short duration. But even in short projects, the quality manager should have a way to
learn from experience and change the process for the next project of a similar complexity profile.
Example: Analyzing Quality Processes in Safety Training
A technical college responsible for training employees in safe plant practices evaluates its instructor selection
14. Quality Planning 168

process at the end of the training to see if it had the best criteria for selection. For example, it required the
instructors to have master’s degrees in manufacturing to qualify as college instructors. The college used an exit
survey of the students to ask what they thought would improve the instruction of future classes on this topic.
Some students felt that it would be more important to require that the instructors have more years of training
experience, while others recommended that instructors seek certification at a training centre. The college con-
sidered these suggestions and decided to retain its requirement of a master’s degree but add a requirement that
instructors be certified in plant safety.
The purpose of quality assurance is to build confidence in the client that quality standards and procedures
are being followed. This is done by an internal review of the plan, testing, and revisions policies or by
an audit of the same items performed by an external group or agency.
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tion-NonCommercial-ShareAlike)
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• 68-95-99 Rule by Wiley et al © CC BY-NC-SA (Attribution NonCommercial ShareAlike)
• Smaller Standard Deviation by Wiley et al © CC BY-NC-SA (Attribution NonCommercial
ShareAlike)
• Cause and Effect Diagram by Wiley et al © CC BY-NC-SA (Attribution NonCommercial
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• Power Fluctuation Diagram by Wiley et al © CC BY-NC-SA (Attribution NonCommercial
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15. Communication Planning
Communications management is about keeping everybody in the loop. The communications planning
process concerns defining the types of information you will deliver, who will receive it, the format for
communicating it, and the timing of its release and distribution. It turns out that 90% of a project man-
ager’s job is spent on communication so it’s important to make sure everybody gets the right message at
the right time.
The first step in defining your communication plan is figuring out what kind of communication your
stakeholders need from the project so they can make good decisions. This is called the communications
requirements analysis. Your project will produce a lot of information; you don’t want to overwhelm your
stakeholders with all of it. Your job is to figure out what they feel is valuable. Communicating valuable
information doesn’t mean you always paint a rosy picture. Communications to stakeholders may con-
sist of either good news or bad news. The point is that you don’t want to bury stakeholders in too much
information but you do want to give them enough so that they’re informed and can make appropriate
decisions.
Communications technology has a major impact on how you keep people in the loop. Methods of
communicating can take many forms, such as written reports, conversations, email, formal status reports,
meetings, online databases, online schedules, and project websites. You should consider several fac-
tors before deciding what methods you’ll choose to transfer information. The timing of the information
exchange or need for updates is the first factor. Do you need to procure new technology or systems, or
are there systems already in place that will work? The technologies available to you should figure into
your plan of how you will keep everyone notified of project status and issues. Staff experience with the
technology is another factor. Are there project team members and stakeholders experienced at using this
technology, or will you need to train them? Finally, consider the duration of the project and the project
environment. Will the technology you’re choosing work throughout the life of the project or will it have
to be upgraded or updated at some point? And how does the project team function? Are they located
together or spread out across several campuses or locations?
The answers to these questions should be documented in the communication plan.
All projects require a sound communication plan, but not all projects will have the same types of com-
munication or the same methods for distributing the information. The communication plan documents
the types of information needs the stakeholders have, when the information should be distributed, and
how the information will be delivered.
The types of information you will communicate typically include project status, project scope state-
ments and updates, project baseline information, risks, action items, performance measures, project
acceptance, and so on. It’s important that the information needs of the stakeholders be determined as
early in the planning phase of the project management life cycle as possible so that as you and your team
develop project planning documents, you already know who should receive copies of them and how they
should be delivered.
Types of Communication
Completing a complex project successfully requires good communication among team members. If
170

those team members work in the same building, they can arrange regular meetings, simply stop by each
other’s office space to get a quick answer, or even discuss a project informally at other office functions.
Many projects are performed by teams that interact primarily through electronic communication and
are, therefore, called virtual teams. To avoid miscommunication that can harm trust and to include team
members in a project culture, the project team needs a plan for communicating reliably and in a timely
manner. This planning begins with understanding two major categories of communication.
Synchronous Communications
If all the parties to the communication are taking part in the exchange at the same time, the communica-
tion is synchronous. A telephone or Skype conference call is an example of synchronous communica-
tion. The following are examples of synchronous communications:
• Live meeting: Gathering of team members at the same location
• Conference call: A telephone call in which several people participate
• Audio conference: Like a conference call, but conducted online using software like Skype
• Computer-assisted conference: Audio conference with a connection between computers that
can display a document or spreadsheet that can be edited by both parties
• Video conference: Similar to an audio conference but with live video of the participants.
Some laptop computers have built-in cameras to facilitate video conferencing
• IM (instant messaging): Exchange of text or voice messages using pop-up windows on the
participants’ computer screens
• Texting: Exchange of text messages between mobile phones, pagers, or personal digital assis-
tants (PDAs)—devices that hold a calendar, a contact list, a task list, and other support pro-
grams
Modern communication technologies make it possible to assemble project teams from anywhere in the
world. Most people work during daylight hours, which can make synchronous meetings difficult if the
participants are in different time zones. However, it can be an advantage in some circumstances; for
example, if something must be done by the start of business tomorrow, team members in Asia can work
on the problem during their normal work hours while team members in North America get some sleep.
Remember Time Zones
It is important to remember time zones and calculate the difference between yours and your associates’
zones correctly so as not to miss important meetings or deadlines. Cities and countries to the north or
south of each other all observe the same local time. Be aware that many well-educated people in the
United States and Canada think of South America as directly south of North America. As you can see,
South American countries can be up to five time zones east of North America. A helpful site to convert
local time to another time zone is Time Zone Converter.
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Figure 15.1: World Time Zones.
Time zones are calculated in reference to the time zone of the Royal Observatory in Greenwich, England.
The time at that location is Greenwich Mean Time (GMT). More recent references designate it as Coor-
dinated Universal Time (UTC) instead of GMT. The time zones advance from Greenwich in an easterly
direction (Figure 15.1). However, at the international dateline (about the midpoint around the world from
Greenwich), you subtract the time zone from GMT. To prevent confusion between a.m. and p.m., times
are often given using a 24-hour clock. For example, midnight is indicated as 00:00, noon is 12:00 and 1
p.m. is 13:00.
Example: Conference Call between Toronto and Paris
A project manager for a software development project in Toronto is five time zones west of the reference zone,
so the time is given as UTC–5 (or GMT–5). If it is noon in the reference zone, it is 7 a.m. (five hours earlier)
in Toronto. The manager would like to contact a project team member in Paris, France. Paris is one time zone
east of the reference zone (UTC+1 or GMT+1). If it is noon (12:00) in the reference zone, it is 1 p.m. (13:00)
in Paris. This means that there is a six-hour difference between Toronto and Paris. If the project manager waits
until after lunch to place the call (1 p.m. in Toronto), it will be too late in the day in Paris (7 p.m.) to reach
someone.
Asynchronous Communications
Getting a team together at the same time can be a challenge—especially if they are spread out across
time zones. Many types of communication do not require that the parties are present at the same time.
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This type of communication is asynchronous. There are several choices of asynchronous communica-
tions.
Mail and Package Delivery
Many companies prefer that final contracts are personally signed by an authorized representative of each
party to the agreement. If several signatures are required, this can take weeks to get all the signatures if
the contracts are transferred by a postal service. If this process is holding up the start of the project, you
can use an overnight delivery service to minimize the time spent transferring the documents.
Fax
Fax machines have been around a long time and enjoy a high level of trust for transmitting documents
accurately. Although it might seem archaic to still use fax transmissions, in many countries a fax of a
signed contract is legal, but a computer-scanned image is not.
Email
Electronic mail (email) is widely used to coordinate projects and to communicate between team mem-
bers. It has several valuable characteristics for project management:
• Information can be sent to a list of team members.
• Messages can be saved to document the process in case of a misunderstanding or miscommu-
nication.
• Files can be attached and distributed.
Project Blog
A blog is an online journal that can be private, shared by invitation, or made available to the world. Some
project managers keep a journal in which they summarize the day’s challenges and triumphs and the
decisions they made. They return to this journal at a later date to review their decision-making process
after the results of those decisions are known to see if they can learn from their mistakes. Many deci-
sions in project management are made with incomplete knowledge, and reflecting on previous decisions
to develop this decision-making skill is important to growth as a project manager.
Really Simple Syndication (RSS)
Some projects are directly affected by external factors such as political elections, economic trends, cor-
porate mergers, technological or scientific breakthroughs, or weather. To keep informed about these fac-
tors, you can subscribe to online news sources. A technology that facilitates this process is Really Simple
Syndication (RSS). Web pages with RSS news feeds have labeled links.
If the user clicks on the RSS feed, news from the website is automatically sent to the user’s news
reader, such as Google Reader. The news reader can be set to filter the news for key words to limit the
stories to those that are relevant to the project.
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Assessing New Communication Technologies
New technologies for communicating electronically appear with increasing frequency. Using a new tech-
nology that is unfamiliar to the team increases the technology complexity, which can cause delays and
increase costs. To decide if a new technology should be included in a communications plan, seek answers
to the following questions (Business Dictionary):
• Does the new communication technology provide a competitive advantage for the project by
reducing cost, saving time, or preventing mistakes?
• Does the project team have the expertise to learn the new technology quickly?
• Does the company offer support such as a help desk and equipment service for new commu-
nication technology?
• What is the cost of training and implementation in terms of time as well as money
Communication Plan Template
So how do you create a communication plan?
1. Identify your stakeholders (to whom)
2. Identify stakeholder expectations (why)
3. Identify communication necessary to satisfy stakeholder expectations and keep them
informed (what)
4. Identify time-frame and/or frequency of communication messages (when)
5. Identify how the message will be communicated (the stakeholder’s preferred method) (how)
6. Identify who will communication each message (who)
7. Document items – templates, formats, or documents the project must use for communicating.
Figure 15.2 shows a communication plan template.
15. Communication Planning 174

Figure 15.2 Communications Plan Template
Text Attributions
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16. Risk Management Planning
Even the most carefully planned project can run into trouble. No matter how well you plan, your project
can always encounter unexpected problems. Team members get sick or quit, resources that you were
depending on turn out to be unavailable, even the weather can throw you for a loop (e.g., a snow-
storm). So does that mean that you’re helpless against unknown problems? No! You can use risk plan-
ning to identify potential problems that could cause trouble for your project, analyze how likely they are
to occur, take action to prevent the risks you can avoid, and minimize the ones that you can’t.
A risk is any uncertain event or condition that might affect your project. Not all risks are negative.
Some events (like finding an easier way to do an activity) or conditions (like lower prices for certain
materials) can help your project. When this happens, we call it an opportunity; but it’s still handled just
like a risk.
There are no guarantees on any project. Even the simplest activity can turn into unexpected problems.
Anything that might occur to change the outcome of a project activity, we call that a risk. A risk can be
an event (like a snowstorm) or it can be a condition (like an important part being unavailable). Either
way, it’s something that may or may not happen …but if it does, then it will force you to change the way
you and your team work on the project.
If your project requires that you stand on the edge of a cliff, then there’s a risk that you could fall. If
it’s very windy out or if the ground is slippery and uneven, then falling is more likely (Figure 16.1).
Figure 16.1 Risk Management Options
When you’re planning your project, risks are still uncertain: they haven’t happened yet. But eventually,
some of the risks that you plan for do happen, and that’s when you have to deal with them. There are
four basic ways to handle a risk.
1. Avoid: The best thing you can do with a risk is avoid it. If you can prevent it from happening,
it definitely won’t hurt your project. The easiest way to avoid this risk is to walk away from
the cliff, but that may not be an option on this project.
2. Mitigate: If you can’t avoid the risk, you can mitigate it. This means taking some sort of
action that will cause it to do as little damage to your project as possible.
3. Transfer: One effective way to deal with a risk is to pay someone else to accept it for you.
The most common way to do this is to buy insurance.
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4. Accept: When you can’t avoid, mitigate, or transfer a risk, then you have to accept it. But
even when you accept a risk, at least you’ve looked at the alternatives and you know what
will happen if it occurs. If you can’t avoid the risk, and there’s nothing you can do to reduce
its impact, then accepting it is your only choice.
By the time a risk actually occurs on your project, it’s too late to do anything about it. That’s why you
need to plan for risks from the beginning and keep coming back to do more planning throughout the
project.
The risk management plan tells you how you’re going to handle risk in your project. It documents how
you’ll assess risk, who is responsible for doing it, and how often you’ll do risk planning (since you’ll
have to meet about risk planning with your team throughout the project).
Some risks are technical, like a component that might turn out to be difficult to use. Others are exter-
nal, like changes in the market or even problems with the weather.
It’s important to come up with guidelines to help you figure out how big a risk’s potential impact could
be. The impact tells you how much damage the risk would cause to your project. Many projects classify
impact on a scale from minimal to severe, or from very low to very high. Your risk management plan
should give you a scale to help figure out the probability of the risk. Some risks are very likely; others
aren’t.
Risk Management Process
Managing risks on projects is a process that includes risk assessment and a mitigation strategy for those
risks. Risk assessment includes both the identification of potential risk and the evaluation of the potential
impact of the risk. A risk mitigation plan is designed to eliminate or minimize the impact of the risk
events—occurrences that have a negative impact on the project. Identifying risk is both a creative and
a disciplined process. The creative process includes brainstorming sessions where the team is asked to
create a list of everything that could go wrong. All ideas are welcome at this stage with the evaluation of
the ideas coming later.
Risk Identification
A more disciplined process involves using checklists of potential risks and evaluating the likelihood that
those events might happen on the project. Some companies and industries develop risk checklists based
on experience from past projects. These checklists can be helpful to the project manager and project
team in identifying both specific risks on the checklist and expanding the thinking of the team. The past
experience of the project team, project experience within the company, and experts in the industry can
be valuable resources for identifying potential risk on a project.
Identifying the sources of risk by category is another method for exploring potential risk on a project.
Some examples of categories for potential risks include the following:
• Technical
• Cost
• Schedule
• Client
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• Contractual
• Weather
• Financial
• Political
• Environmental
• People
You can use the same framework as the work breakdown structure (WBS) for developing a risk break-
down structure (RBS). A risk breakdown structure organizes the risks that have been identified into
categories using a table with increasing levels of detail to the right. The people category can be subdi-
vided into different types of risks associated with the people. Examples of people risks include the risk
of not finding people with the skills needed to execute the project or the sudden unavailability of key
people on the project.
Example: Risks in John’s Move
In John’s move, John makes a list of things that might go wrong with his project and uses his work breakdown
structure as a guide. A partial list for the planning portion of the RBS is shown in Table 16.1.
Table 16.1 Risk Breakdown Structure (RBS)
Task Risk
Contact Dion and Carlita
• Dion backs out
• Carlita backs out
• No common date available
Host planning lunch
• Restaurant full or closed
• Wring choice of ethnic food
• Dion or Carlita have special food allergies or
preferences
Develop and distribute schedule
• Printer out of toner
• Out of paper
The result is a clearer understanding of where risks are most concentrated. This approach helps the pro-
ject team identify known risks, but can be restrictive and less creative in identifying unknown risks and
risks not easily found inside the WBS.
16. Risk Management Planning 178

Risk Evaluation
After the potential risks have been identified, the project team then evaluates each risk based on the
probability that a risk event will occur and the potential loss associated with it. Not all risks are equal.
Some risk events are more likely to happen than others, and the cost of a risk can vary greatly. Evaluat-
ing the risk for probability of occurrence and the severity or the potential loss to the project is the next
step in the risk management process.
Having criteria to determine high-impact risks can help narrow the focus on a few critical risks that
require mitigation. For example, suppose high-impact risks are those that could increase the project costs
by 5% of the conceptual budget or 2% of the detailed budget. Only a few potential risk events meet these
criteria. These are the critical few potential risk events that the project management team should focus
on when developing a project risk mitigation or management plan. Risk evaluation is about developing
an understanding of which potential risks have the greatest possibility of occurring and can have the
greatest negative impact on the project (Figure 16.2). These become the critical few.
Figure 16.2 Risk and Impact
There is a positive correlation—both increase or decrease together—between project risk and project
complexity. A project with new and emerging technology will have a high-complexity rating and a cor-
respondingly high risk. The project management team will assign the appropriate resources to the tech-
nology managers to ensure the accomplishment of project goals. The more complex the technology,
the more resources the technology manager typically needs to meet project goals, and each of those
resources could face unexpected problems.
Risk evaluation often occurs in a workshop setting. Building on the identification of the risks, each
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risk event is analyzed to determine the likelihood of occurrence and the potential cost if it did occur. The
likelihood and impact are both rated as high, medium, or low. A risk mitigation plan addresses the items
that have high ratings on both factors—likelihood and impact.
Example: Risk Analysis of Equipment Delivery
A project team analyzed the risk of some important equipment not arriving at the project on time. The team
identified three pieces of equipment that were critical to the project and would significantly increase costs if
they were late in arriving. One of the vendors, who was selected to deliver an important piece of equipment,
had a history of being late on other projects. The vendor was good and often took on more work than it could
deliver on time. This risk event (the identified equipment arriving late) was rated as high likelihood with a
high impact. The other two pieces of equipment were potentially a high impact on the project but with a low
probability of occurring.
Not all project managers conduct a formal risk assessment on a project. One reason, as found by David
Parker and Alison Mobey in their phenomenological study of project managers, was a low understand-
ing of the tools and benefits of a structured analysis of project risks (2004). The lack of formal risk
management tools was also seen as a barrier to implementing a risk management program. Additionally,
the project manager’s personality and management style play into risk preparation levels. Some project
managers are more proactive and develop elaborate risk management programs for their projects. Other
managers are reactive and are more confident in their ability to handle unexpected events when they
occur. Yet others are risk averse, and prefer to be optimistic and not consider risks or avoid taking risks
whenever possible.
On projects with a low-complexity profile, the project manager may informally track items that may
be considered risk items. On more complex projects, the project management team may develop a list
of items perceived to be higher risk and track them during project reviews. On projects of even greater
complexity, the process for evaluating risk is more formal with a risk assessment meeting or series of
meetings during the life of the project to assess risks at different phases of the project. On highly com-
plex projects, an outside expert may be included in the risk assessment process, and the risk assessment
plan may take a more prominent place in the project implementation plan.
On complex projects, statistical models are sometimes used to evaluate risk because there are too
many different possible combinations of risks to calculate them one at a time. One example of the sta-
tistical model used on projects is the Monte Carlo simulation, which simulates a possible range of out-
comes by trying many different combinations of risks based on their likelihood. The output from a
Monte Carlo simulation provides the project team with the probability of an event occurring within a
range and for combinations of events. For example, the typical output from a Monte Carlo simulation
may indicate a 10% chance that one of the three important pieces of equipment will be late and that the
weather will also be unusually bad after the equipment arrives.
Risk Mitigation
After the risk has been identified and evaluated, the project team develops a risk mitigation plan, which
is a plan to reduce the impact of an unexpected event. The project team mitigates risks in various ways:
16. Risk Management Planning 180

• Risk avoidance
• Risk sharing
• Risk reduction
• Risk transfer
Each of these mitigation techniques can be an effective tool in reducing individual risks and the risk pro-
file of the project. The risk mitigation plan captures the risk mitigation approach for each identified risk
event and the actions the project management team will take to reduce or eliminate the risk.
Risk avoidance usually involves developing an alternative strategy that has a higher probability of
success but usually at a higher cost associated with accomplishing a project task. A common risk avoid-
ance technique is to use proven and existing technologies rather than adopt new techniques, even though
the new techniques may show promise of better performance or lower costs. A project team may choose
a vendor with a proven track record over a new vendor that is providing significant price incentives to
avoid the risk of working with a new vendor. The project team that requires drug testing for team mem-
bers is practising risk avoidance by avoiding damage done by someone under the influence of drugs.
Risk sharing involves partnering with others to share responsibility for the risky activities. Many
organizations that work on international projects will reduce political, legal, labour, and others risk types
associated with international projects by developing a joint venture with a company located in that coun-
try. Partnering with another company to share the risk associated with a portion of the project is advan-
tageous when the other company has expertise and experience the project team does not have. If a risk
event does occur, then the partnering company absorbs some or all of the negative impact of the event.
The company will also derive some of the profit or benefit gained by a successful project.
Risk reduction is an investment of funds to reduce the risk on a project. On international projects,
companies will often purchase the guarantee of a currency rate to reduce the risk associated with fluc-
tuations in the currency exchange rate. A project manager may hire an expert to review the technical
plans or the cost estimate on a project to increase the confidence in that plan and reduce the project risk.
Assigning highly skilled project personnel to manage the high-risk activities is another risk-reduction
method. Experts managing a high-risk activity can often predict problems and find solutions that prevent
the activities from having a negative impact on the project. Some companies reduce risk by forbidding
key executives or technology experts to ride on the same airplane.
Risk transfer is a risk reduction method that shifts the risk from the project to another party. The pur-
chase of insurance on certain items is a risk-transfer method. The risk is transferred from the project to
the insurance company. A construction project in the Caribbean may purchase hurricane insurance that
would cover the cost of a hurricane damaging the construction site. The purchase of insurance is usually
in areas outside the control of the project team. Weather, political unrest, and labour strikes are examples
of events that can significantly impact the project and that are outside the control of the project team.
Contingency Plan
The project risk plan balances the investment of the mitigation against the benefit for the project. The
project team often develops an alternative method for accomplishing a project goal when a risk event has
been identified that may frustrate the accomplishment of that goal. These plans are called contingency
plans. The risk of a truck drivers’ strike may be mitigated with a contingency plan that uses a train to
transport the needed equipment for the project. If a critical piece of equipment is late, the impact on the
schedule can be mitigated by making changes to the schedule to accommodate a late equipment delivery.
181 2nd Edition

Contingency funds are funds set aside by the project team to address unforeseen events that cause the
project costs to increase. Projects with a high-risk profile will typically have a large contingency budget.
Although the amount of contingency allocated in the project budget is a function of the risks identified
in the risk analysis process, contingency is typically managed as one line item in the project budget.
Some project managers allocate the contingency budget to the items in the budget that have high risk
rather than developing one line item in the budget for contingencies. This approach allows the project
team to track the use of contingency against the risk plan. This approach also allocates the responsibility
to manage the risk budget to the managers responsible for those line items. The availability of contin-
gency funds in the line item budget may also increase the use of contingency funds to solve problems
rather than finding alternative, less costly solutions. Most project managers, especially on more complex
projects, manage contingency funds at the project level, with approval of the project manager required
before contingency funds can be used.
Project Risk by Phases
Project risk is dealt with in different ways depending on the phase of the project.
Initiation
Risk is associated with things that are unknown. More things are unknown at the beginning of a project,
but risk must be considered in the initiation phase and weighed against the potential benefit of the pro-
ject’s success in order to decide if the project should be chosen.
Example: Risks by Phase in John’s Move
In the initiation phase of his move, John considers the risk of events that could affect the whole project. Lets
assume that John’s move is not just about changing jobs, but also a change of cities. This would certainly incur
more risks for the project. He identifies the following risks during the initiation phase that might have a high
impact and rates the likelihood of their happening from low to high.
1. His new employer might change his mind and take back the job offer after he’s given notice at his
old job: Low.
2. The current tenants of his apartment might not move out in time for him to move in by the first
day of work at the new job: Medium.
3. The movers might lose his furniture: Low.
4. The movers might be more than a week late delivering his furniture: Medium.
5. He might get in an accident driving from Chicago to Atlanta and miss starting his job: Low.
John considers how to mitigate each of the risks.
1. During his job hunt, John had more than one offer, and he is confident that he could get another
job, but he might lose deposit money on the apartment and the mover. He would also lose wages
16. Risk Management Planning 182

during the time it took to find the other job. To mitigate the risk of his new employer changing his
mind, John makes sure that he keeps his relationships with his alternate employers cordial and
writes to each of them thanking for their consideration in his recent interviews.
2. John checks the market in Atlanta to determine the weekly cost and availability of extended-stay
motels.
3. John checks the mover’s contract to confirm that they carry insurance against lost items, but they
require the owner to provide a detailed list with value estimates and they limit the maximum total
value. John decides to go through his apartment with his digital camera and take pictures of all of
his possessions that will be shipped by truck and to keep the camera with him during the move so
he has a visual record and won’t have to rely on his memory to make a list. He seals and numbers
the boxes so he can tell if a box is missing.
4. If the movers are late, John can use his research on extended-stay motels to calculate how much it
would cost. He checks the moving company’s contract to see if they compensate the owner for
late delivery, and he finds that they do not.
5. John checks the estimated driving time from Chicago to Atlanta using an Internet mapping ser-
vice and gets an estimate of 11 hours of driving time. He decides that it would be too risky to
attempt to make the drive by himself in one day, especially if he didn’t leave until after the truck
was packed. John plans to spend one night on the road in a motel to reduce the risk of an accident
caused by driving while too tired.
John concludes that the medium-risks can be mitigated and the costs from the mitigation would be accept-
able in order to get a new job.
Planning Phase
Once the project is approved and it moves into the planning stage, risks are identified with each major
group of activities. A risk breakdown structure (RBS) can be used to identify increasing levels of
detailed risk analysis.
Example: Risk Breakdown Structure for John’s Move
John decides to ask Dion and Carlita for their help during their first planning meeting to identify risks, rate
their impact and likelihood, and suggest mitigation plans. They concentrate on the packing phase of the move.
They fill out a table of risks, as shown in Table 16.2.
Legend:
• RA: Risk avoidance
• RS: Risk sharing
• RR: Risk reduction
• RT: Risk transfer
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Table 16.2: Risk Breakdown Structure (RBS) for Packing John’s Apartment
Task Risks Mitigation
Cuts from handling sharp knives Buy small boxes for packing knives(RR)
Cuts from cracked glasses that break
while being packed Discard cracked glasses (RA)Pack kitchen
Transporting alcoholic beverages Give opened bottles to Dion orCarlita (RA)
Damage to antique furniture
Supervise wrapping and loading
personally (RR) and require movers
to insure against damage (RT)
Lose parts while talking apart the
entertainment centre
Buy box of large freezer bags with a
marker to bag and label parts (RR)
Packing living room
Break most valuable electronics—TV,
DVD, Tuner, Speakers
Buy boxes of the right size with
sufficient bubble wrap (RR)
Break large mirror Buy or rent a mirror-box withStyrofoam blocks at each corner (RR)
Pack bedroom
Lose prescription drugs or pack them
where they cannot be found quickly
Separate prescription drugs for
transportation in the car (RA)
Damage to house plants
Ask Carlita to care for them and bring
them with her in her van when she
visits in exchange for half of them
(RS)Pack remaining items
Transportation of flammable liquids
from charcoal grill Give to Dion or Carlita (RA)
Implementation Phase
As the project progresses and more information becomes available to the project team, the total risk on
the project typically reduces, as activities are performed without loss. The risk plan needs to be updated
with new information and risks checked off that are related to activities that have been performed.
Understanding where the risks occur on the project is important information for managing the con-
tingency budget and managing cash reserves. Most organizations develop a plan for financing the pro-
ject from existing organizational resources, including financing the project through a variety of financial
instruments. In most cases, there is a cost to the organization to keep these funds available to the project,
including the contingency budget. As the risks decrease over the length of the project, if the contingency
is not used, then the funds set aside by the organization can be used for other purposes.
To determine the amount of contingency that can be released, the project team will conduct another
risk evaluation and determine the amount of risk remaining on the project. If the risk profile is lower,
the project team may release contingency funds back to the parent organization. If additional risks are
uncovered, a new mitigation plan is developed including the possible addition of contingency funds.
16. Risk Management Planning 184

Closeout Phase
During the closeout phase, agreements for risk sharing and risk transfer need to be concluded and the
risk breakdown structure examined to be sure all the risk events have been avoided or mitigated. The
final estimate of loss due to risk can be made and recorded as part of the project documentation. If a
Monte Carlo simulation was done, the result can be compared to the predicted result.
Example: Risk Closeout on John’s Move
To close out the risk mitigation plan for his move, John examines the risk breakdown structure and risk miti-
gation plan for items that need to be finalized. He makes a checklist to be sure all the risk mitigation plans are
completed, as shown in Table 16.3. Risk is not allocated evenly over the life of the project. On projects with a
high degree of new technology, the majority of the risks may be in the early phases of the project. On projects
with a large equipment budget, the largest amount of risk may be during the procurement of the equipment. On
global projects with a large amount of political risk, the highest portion of risk may be toward the end of the
project.
Table 16.3 Closeout of Risk Mitigation Plan for John’s Move
Risk Mitigation Closeout
Items lost by movers Mover’s insurance plus digital imageinventory
Confirm all of the numbered boxes
are present and still sealed.
Antique furniture damaged Mover’s insurance plus personalsupervision of wrapping and loading
Supervise unloading and unwrapping;
visually inspect each piece.
House plants Ask Carlita to bring half of them inher van when she visits.
Confirm that the plants are healthy
and that Carlita brought about half of
them.
References
Parker, D., & Mobey, A. (2004). Action Research to Explore Perceptions of Risk in Project Manage-
ment. International Journal of Productivity and Performance Management 53(1), 18–32.
Attribution
This chapter of Project Management is a derivative of the following text:
• Project Management for Instructional Designers by Wiley, et al. © CC BY-NC-SA (Attribu-
tion-NonCommercial-ShareAlike)
Media Attributions
• Risk Management Options by Barron & Barron Project Management for Scientists and Engi-
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17. Project Implementation Overview
After you have carefully planned your project, you will be ready to start the project implementation
phase, the third phase of the project management life cycle. The implementation phase involves putting
the project plan into action. It’s here that the project manager will coordinate and direct project resources
to meet the objectives of the project plan. As the project unfolds, it’s the project manager’s job to direct
and manage each activity, every step of the way. That’s what happens in the implementation phase of the
project life cycle: you follow the plan you’ve put together and handle any problems that come up.
The implementation phase is where you and your project team actually do the project work to produce
the deliverables. The word “deliverable” means anything your project delivers. The deliverables for your
project include all of the products or services that you and your team are performing for the client, cus-
tomer, or sponsor, including all the project management documents that you put together.
The steps undertaken to build each deliverable will vary depending on the type of project you are
undertaking, and cannot therefore be described here in any real detail. For instance engineering and
telecommunications projects will focus on using equipment, resources, and materials to construct each
project deliverable, whereas computer software projects may require the development and implementa-
tion of software code routines to produce each project deliverable. The activities required to build each
deliverable will be clearly specified within the project requirements document and project plan.
Your job as project manager is to direct the work, but you need to do more than deliver the results.
You also need to keep track of how well your team performs. The implementation phase keeps the pro-
ject plan on track with careful monitoring and control processes to ensure the final deliverable meets
the acceptance criteria set by the customer. This phase is typically where approved changes are imple-
mented.
Most often, changes are identified by looking at performance and quality control data. Routine perfor-
mance and quality control measurements should be evaluated on a regular basis throughout the imple-
mentation phase. Gathering reports on those measurements will help you determine where the problem
is and recommend changes to fix it.
Change Control
When you find a problem, you can’t just make a change, because it may be too expensive or take too
long to do. You will need to look at how it affects the triple constraint (time, cost, scope) and how
it impacts project quality. You will then have to figure out if it is worth making the change. If you eval-
uate the impact of the change and find that it won’t have an impact on the project triple constraint, then
you can make the change without going through change control. Change control is a set of procedures
that lets you make changes in an organized way.
Any time you need to make a change to your plan, you must start with a change request. This is a
document that either you or the person making the request must complete. Any change to your project
must be documented so you can figure out what needs to be done, by when, and by whom.
Once the change request is documented, it is submitted to a change control board. A change control
board is a group of people who consider changes for approval. Not every change control system has a
board but most do. The change request could also be submitted to the project sponsor or management for
187

review and approval. Putting the recommended changes through change control will help you evaluate
the impact and update all the necessary documents. Not all changes are approved, but if the changes are
approved, you send them back to the team to put them in place.
The implementation phase uses the most project time and resources, and as a result, costs are usually
the highest during this phase. Project managers also experience the greatest conflicts over schedules in
this phase. You may find as you are monitoring your project that the actual time it is taking to do the
scheduled work is longer than the amount of time planned.
When you absolutely have to meet the date and you are running behind, you can sometimes find ways
to do activities more quickly by adding more resources to critical path tasks. That’s called crashing.
Crashing the schedule means adding resources or moving them around to to bring the project back into
line with the schedule. Crashing always costs more and doesn’t always work. There’s no way to crash a
schedule without raising the overall cost of the project. So, if the budget is fixed and you don’t have any
extra money to spend, you can’t use this technique.
Sometimes you’ve got two activities planned to occur in sequence, but you can actually do them at the
same time. This is called fast tracking the project. On a software project, you might do both your user
acceptance testing (UAT) and your functional testing at the same time, for example. This is pretty risky.
There’s a good chance you might need to redo some of the work you have done concurrently. Crash-
ing and fast tracking are schedule compression tools. Managing a schedule change means keeping all of
your schedule documents up to date. That way, you will always be comparing your results to the correct
plan.
After the deliverables have been physically constructed and accepted by the customer, a phase review
is carried out to determine whether the project is complete and ready for closure.
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• Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution)
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18. Project Completion
Every project needs to end and that’s what project completion is all about in the last phase of the project
life cycle. The whole point of the project is to deliver what you promised. By delivering everything you
said you would, you make sure that all stakeholders are satisfied and all acceptance criteria have been
met. Once that happens, your project can end.
Project completion is often the most neglected phase of the project life cycle. Once the project is over,
it’s easy to pack things up, throw some files in a drawer, and start moving right into the initiation phase
of the next project. Hold on. You’re not done yet.
The key activities in project completion are gathering project records; disseminating information to
formalize acceptance of the product, service, or project; and performing project closure. As the project
manager, you will need to review project documents to make certain they are up-to-date. For example,
perhaps some scope change requests were implemented that changed some of the characteristics of the
final product. The project information you are collecting during this phase should reflect the character-
istics and specifications of the final product. Don’t forget to update your resource assignments as well.
Some team members will have come and gone over the course of the project. You need to double-check
that all the resources and their roles and responsibilities are noted.
Once the project outcomes are documented, you’ll request formal acceptance from the stakeholders
or customer. They’re interested in knowing if the product or service of the project meets the objectives
the project set out to accomplish. If your documentation is up-to-date, you’ll have the project results at
hand to share with them.
Contract Closure
Contracts come to a close just as projects come to a close. Contract closure is concerned with completing
and settling the terms of the contracts let for the project. It supports the project completion process
because the contract closure process determines if the work described in the contracts was completed
accurately and satisfactorily. Keep in mind that not all projects are performed under contract so not all
projects require the contract closure process. Obviously, this process applies only to those phases, deliv-
erables, or portions of the project that were performed under contract.
Contract closure updates the project records, detailing the final results of the work on the project.
Contracts may have specific terms or conditions for completion. You should be aware of these terms or
conditions so that project completion isn’t held up because you missed an important detail. If you are
administering the contract yourself, be sure to ask your procurement department if there are any special
conditions that you should be aware of so that your project team doesn’t inadvertently delay contract
project closure.
One of the purposes of the contract closure process is to provide formal notice to the seller, usually in
written form, that the deliverables are acceptable and satisfactory or have been rejected. If the product or
service does not meet the expectations, the vendor will need to correct the problems before you issue a
formal acceptance notice. Before the contract is closed, any minor items that need to be repaired or com-
pleted are placed on a punch list, which is a list of all the items found by the client or team or manager
that still remain to be done. Hopefully, quality audits have been performed during the course of the pro-
189

ject, and the vendor was given the opportunity to make corrections earlier in the process than the closing
phase. It’s not a good idea to wait until the very end of the project and then spring all the problems and
issues on the vendor at once. It’s much more efficient to discuss problems with your vendor as the pro-
ject progresses because it provides the opportunity for correction when the problems occur.
The project team will then work on all of the items on the punch list, building a small schedule to
complete the remaining work. If the number of items on the punch list is too large or the amount of work
is significant, the project team continues to work on the project. Once the punch list becomes smaller,
the project manager begins closing down the project, maintaining only enough staff and equipment to
support the team that is working on the punch list.
If the product or service does meet the project’s expectations and is acceptable, formal written notice
to the seller is required, indicating that the contract is complete. This is the formal acceptance and clo-
sure of the contract. It’s your responsibility as the project manager to document the formal acceptance of
the contract. Many times the provisions for formalizing acceptance and closing the contract are spelled
out in the contract itself.
If you have a procurement department handling the contract administration, they will expect you to
inform them when the contract is complete and will in turn follow the formal procedures to let the seller
know the contract is complete. However, you will still note the contract completion in your copy of the
project records.
Releasing the Project Team
Releasing project team members is not an official process. However, it should be noted that at the con-
clusion of the project, you will release your project team members, and they will go back to their func-
tional managers or get assigned to a new project. You will want to keep their managers, or other project
managers, informed as you get closer to project completion, so that they have time to adequately plan for
the return of their employees. Let them know a few months ahead of time what the schedule looks like
and how soon they can plan on using their employees on new projects. This gives the other managers
the ability to start planning activities and scheduling activity dates.
Final Payments
The final payment is usually more than a simple percentage of the work that remains to be completed.
Completing the project might involve fixing the most difficult problems that are disproportionately
expensive to solve, so the final payment should be large enough to motivate the vendor to give the pro-
ject a high priority so that the project can be completed on time.
If the supplier has met all the contractual obligations, including fixing problems and making repairs as
noted on a punch list, the project team signs off on the contract and submits it to the accounting depart-
ment for final payment. The supplier is notified that the last payment is final and completes the contrac-
tual agreement with the project.
Post-Project Evaluations
Before the team is dissolved and begins to focus on the next project, a review is conducted to capture the
lessons that can be learned from this project, often called a lessons-learned meeting or document. The
team explores what went well and captures the processes to understand why they went well. The team
18. Project Completion 190

asks if the process is transferable to other projects. The team also explores what did not go well and what
people learned from the experience. The process is not to find blame, but to learn.
Quality management is a process of continual improvement that includes learning from past projects
and making changes to improve the next project. This process is documented as evidence that quality
management practices are in use. Some organizations have formal processes for changing work
processes and integrating the lessons learned from the project so other projects can benefit. Some orga-
nizations are less formal in the approach and expect individuals to learn from the experience and take
the experience to their next project and share what they learned with others in an informal way. What-
ever type of approach is used, the following elements should be evaluated and the results summarized in
reports for external and internal use.
Trust and Alignment Effectiveness
The project leadership reviews the effect of trust—or lack of trust—on the project and the effectiveness
of alignment meetings at building trust. The team determines which problems might have been foreseen
and mitigated and which ones could not have been reasonably predicted. What were the cues that were
missed by the team that indicated a problem was emerging? What could the team have done to better
predict and prevent trust issues?
Schedule and Budget Management
The original schedule of activities and the network diagram are compared to the actual schedule of
events. Events that caused changes to the schedule are reviewed to see how the use of contingency
reserves and float mitigated the disruption caused by those events. The original estimates of contingency
time are reviewed to determine if they were adequate and if the estimates of duration and float were
accurate. These activities are necessary for the project team to develop expertise in estimating schedule
elements in future projects—they are not used to place blame.
A review of budget estimates for the cost of work scheduled is compared to the actual costs. If the
estimates are frequently different from the actual costs, the choice of estimating method is reviewed.
Risk Mitigation
After the project is finished, the estimates of risk can be reviewed and compared to the events that actu-
ally took place. Did events occur that were unforeseen? What cues existed that may have allowed the
team to predict these events? Was the project contingency sufficient to cover unforeseen risks? Even if
nothing went wrong on this project, it is not proof that risk mitigation was a waste of money, but it is
useful to compare the cost of avoiding risk versus the cost of unexpected events to understand how much
it cost to avoid risk.
Procurement Contracts
The performance of suppliers and vendors is reviewed to determine if they should still be included in
the list of qualified suppliers or vendors. The choice of contract for each is reviewed to determine if the
decision to share risk was justified and if the choice of incentives worked.
191 2nd Edition

Customer Satisfaction
Relationships with the client are reviewed and decisions about including the client in project decisions
and alignment meetings are discussed. The client is given the opportunity to express satisfaction and
identify areas in which project communication and other factors could be improved. Often a senior man-
ager from the organization interviews the client to develop feedback on the project team performance.
A general report that provides an overview of the project is created to provide stakeholders with a
summary of the project. The report includes the original goals and objectives and statements that show
how the project met those goals and objectives. Performance on the schedule and budget are summarized
and an assessment of client satisfaction is provided. A version of this report can be provided to the client
as a stakeholder and as another means for deriving feedback.
Senior Management
The report to senior management contains all the information provided to the stakeholders in a short
executive summary. The report identifies practices and processes that could be improved or lessons that
were learned that could be useful on future projects.
Archiving of Document
The documents associated with the project must be stored in a safe location where they can be retrieved
for future reference. Signed contracts or other documents that might be used in tax reviews or lawsuits
must be stored. Organizations will have legal document storage and retrieval policies that apply to pro-
ject documents and must be followed. Some project documents can be stored electronically.
Care should be taken to store documents in a form that can be recovered easily. If the documents
are stored electronically, standard naming conventions should be used so documents can be sorted and
grouped by name. If documents are stored in paper form, the expiration date of the documents should be
determined so they can be destroyed at some point in the future. The following are documents that are
typically archived:
• Charter documents
• Scope statement
• Original budget
• Change documents
• DPCI ratings
• Manager’s summary—lessons learned
• Final DPCI rating
Text Attributions
This chapter of Project Management is a derivative of the following texts:
• Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution)
18. Project Completion 192

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• Project Management for Instructional Designers by Wiley, et al. © CC BY-NC-SA (Attribu-
tion-NonCommercial-ShareAlike)
193 2nd Edition

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19. Celebrate!
The project team should celebrate their accomplishments, and the project manager should officially rec-
ognize their efforts, thank them for their participation, and officially close the project. A celebration
helps team members formally recognize the project’s end and brings closure to the work they’ve done. It
also encourages them to remember what they’ve learned and start thinking about how their experiences
will benefit them and the organization during the next project.
Figure 19.1: Celebrate! Your project is over… at least until
the next one.
Text Attributions
This chapter of Project Management is a derivative of the following text:
• Project Management by Merrie Barron and Andrew Barron. © CC BY (Attribution)
Media Attributions
• Champagne by Baron & Baron Project Management for Scientists and Engineers © CC BY
(Attribution)
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Appendix 1: Project Management PowerPoints
Chapter 1 [PPT]
Chapter 2 [PPT]
Chapter 3 [PPT]
Chapter 4 [PPT]
Chapter 5 [PPT]
Chapter 6 [PPT]
Chapter 7 [PPT]
Chapter 8 [PPT]
Chapter 9 [PPT]
Chapter 10 [PPT]
Chapter 11 [PPT]
Chapter 12 [PPT]
Chapter 13 [PPT]
Chapter 14 [PPT]
Chapter 15 [PPT]
Chapter 16 [PPT]
Chapter 17 [PPT]
Chapter 18 [PPT]
195

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Appendix 2: Chapter Questions
Chapter 2: Project Management Overview
1. Everyone has been involved in projects. What is the largest project you have been involved in?
(You do not have to have been the project manager, but could have played another role.)
1. Write one sentence that describes the objective of the project.
2. Describe specifically how this project meets the definition of a project used in this
textbook. (How is it unique? What were the time constraints? If it is over, how did
you know it was over? If it is ongoing, how will you know when it is over?
3. What was your role? Were you the project manager, a volunteer, some other role? If
you were not the project manager, who was?
4. Was the project part of a larger portfolio or program of projects?
5. Who else was involved?
6. What was the budget?
7. Did you anticipate any risks at the outset? Did the project experience any outside
forces that caused a change in either the objectives or the approach to achieving those
objectives?
2. In what ways can the following activities be seen as projects? In what ways do they resemble
ongoing, routine business activities? Feel free to add assumptions and details to describe how the
activity might be a project in one context and routine in another.
1. Reading the chapter before attending a university lecture.
2. Taking the bus to work each day.
3. Piloting an aircraft between Vancouver and Fiji.
4. Teaching a course for the first time; teaching the same course every semester.
Chapter 3: The Project Life Cycle (Phases)
1. Go online and search for project life cycle models. Identify at least two that are different from the
PMI model, and compare and contrast the phases. Be sure to cite your sources.
2. How does the application of a phased approach to project management vary in different indus-
196

tries? Do you think that the phases work the same in construction as they do in event management
or software development?
Chapter 5: Stakeholder Management
1. Identify a major public infrastructure project that is either underway, complete, or proposed in
your region. This could be a bridge, road, building, or something of that nature. For the project
you have identified, think of as many stakeholders and stakeholder groups as you can. Create a
three-column table. In column 1, list the stakeholders. In column 2, list what each stakeholder
wants to get from the project. In column 3, list the influence each stakeholder has over the pro-
ject.
2. How can the stakeholders change over the course of a project? Give examples of changes in who
the stakeholders are, and also in how their interests or influence over the project might change
throughout the term of the project.
Chapter 7: Project Initiation
1. Software project decision point.
1. You need to determine an interest rate to use—select an interest rate and explain why
you think this number should be used. Use it in your calculations in item 1.2.
2. Given the information below on options 1 and 2, carry out three forms of analysis:
breakeven, ROI, and NPV.
3. Make a recommendation on which way to proceed, based on the TCO for each option.
• Option 1: Purchase the FunSoft package: Cost $200,000 for software and $85,000 for hardware in
year one; with $50,000 to customize it and a $40,000 annual licensing fee for the life of the con-
tract. There will be an annual saving of $61,000 due to the layoff of a clerk.
• Option 2: Purchase the SoftComm package, which will operate on the vendor’s hardware: Cost
$250,000 for a five-year license, payable half up front and half during the first year of implemen-
tation. The maintenance contract, at $75,000 a year, includes all currently identified modifications
to the software for the first three years. The clerk’s hours will be cut by half, for a saving of
$25,000 a year.
In both cases, sales are expected to increase from the current $1 million a year, by 10% per year each year
(over each year’s previous year’s sales) after full implementation.
Assume a five-year life for the software.
197 Adrienne Watt

Chapter 9: Scope Planning
1. A project to put on a major international sporting competition has the following major deliver-
ables: Sports Venues, Athlete Accommodation, Volunteer Organization, Security, Events, and
Publicity (which has already been broken down into pre-event publicity and post-event publicity.)
Prepare a WBS for any single major deliverable on the list. Remember the 100 percent rule, and
number your objectives.
Chapter 10: Project Schedule Planning
Your team has been asked to test and document enhancements to a web application that allows buyers to pur-
chase custom-printed canvas shoes. The tasks and dependencies are as follows:
• Create a testing plan
Once the testing plan is ready, your team can:
• Test the user interfaces
• Test the database
• Test the network
• Write the documentation first draft
When the user interface tests are complete, you can:
• Perform user testing—enlist some users to test the user interface
When the database and network testing are complete, you can:
• Perform integration testing—network with the database
When the user testing of the user interface and the database testing are complete, you can:
• Perform integration testing—database, network, and user interface
When all integration testing and user testing are complete, you can:
• Perform system testing
Then you can:
• Review and revise documentation
After all other tasks are complete, you can:
2nd Edition 198

• Obtain management approval
Duration estimates for the tasks:
a. 3 days
b. 10 days
c. 6 days
d. 7 days
e. 20 days
f. 5 days
g. 3 days
h. 2 days
i. 8 days
j. 4 days
k. 5 days
1. Create a network diagram and a Gantt chart for the project tasks. Ask your instructor if you are
permitted to use software such as Microsoft Project to help you prepare your diagrams.
1. What is the planned duration for the testing project?
2. What is the critical path for the testing project?
3. For each task NOT on the critical path, calculate the amount of slack available.
4. If the user testing of the user interface takes 15 days, what will the impact be on the
project duration?
2. Go online and find at least two sites with definitions of fast tracking and crashing a project sched-
ule.
1. Prepare proper reference citations for the sites you located, using APA style.
2. In your own words, write definitions for project fast tracking and project crashing.
3. Consider the plan you prepared for the software system testing project in question 1
above. If you were informed by management that you must reduce the planned dura-
tion of the project by five days, describe how you, as a project manager, could crash
or fast track this project. Be specific in identifying exactly what could be changed in
the project plan for each option.
4. (continuation of question 2.3) If the request to speed up the project occurs after day
25 of the original schedule, what is the only option available?
3. Go online and research the difference between total slack and free slack.
1. Prepare proper reference citations for the sites you located, using APA style.
199 Adrienne Watt

2. Write definitions of total slack and free slack in your own words.
3. Why would the distinction between different forms of slack be important to a project
manager?
Chapter 12: Budget Planning
1. Wedding cost estimation: Given the following information, calculate the estimated costs for a
wedding with 250 guests and a bridal party of six, using the methods indicated. Show your work.
Note that members of the bridal party are already counted as guests, you don’t need to add them
twice.
1. Parametric estimate
2. Bottom-up estimate
3. Analogous cost estimate
4. You will probably notice some differences in the estimated values. Are these differ-
ences significant? What might cause the differences? If you were estimating a signifi-
cant project in the future, which method(s) would you use and why?
5. Your mother points out you should probably have valet parking, which will cost $500.
Which estimate(s) will change?
2nd Edition 200

Wedding Cost Estimates
Item Dollars
Groom’s brother’s wedding, last year, 175 guests, similar venue
and style $20,300
Catering $65 per person
Photographer $1,500
Rental of hall $500
Clothing, bride $2,000
Clothing, groom $750
Flowers $800
Other décor items $500
Cake $500
Gifts for bridal party $80 each
Wedding planner $2,000
Wedding planner’s estimate of typical cost for this kind of
wedding
$10,000 plus $75 per
guest
2. Earned-value analysis. A project budget calls for the following expenditures:
Task Date Budgeted Amount
Build forms April 1 $10,000
April 1 $50,000
Pour foundation
May 1 $100,000
May 1 $30,000
Frame walls
June 1 $30,000
Remaining tasks July 1 and beyond $500,000
Define each term in your own words, calculate these values for the above project, and show your
work:
1. Budgeted cost baseline (make a graph illustrating this one)
2. Budget at completion (BAC)
3. Planned value (PV) as of May 1
4. Earned value (EV) as of May 1 if the foundation work is only two-thirds complete.
Everything else is on schedule.
201 Adrienne Watt

5. SV as of May 1.
6. Actual cost as of May 1 is $160,000. Calculate the cost variance (CV) as of May 1.
7. Schedule performance index (SPI)
8. Cost performance index (CPI)
9. Estimate to complete (ETC), assuming that the previous cost variances will not affect
future costs
10. Estimate at completion (EAC)
Chapter 13: Procurement Management
1. In addition to cost, what factors should be considered in selecting a building contractor? What can
go wrong if the lowest bid is selected and nothing else is considered? (Answer in your own
words, maximum 70 words.)
2. What is the difference between an RFP and an RFQ? Give two specific examples where an RFQ
could be used and two specific examples where it is more likely that the organization will go with
an RFP. (Use examples NOT from your textbook.)
3. Cost reimbursable contract calculation.
1. A contract calls for a total payment of $800,000 with a guarantee. Essentially the con-
tractor is guaranteed to make at least $200,000 above his costs. If the contractor can
demonstrate his costs exceed $600,000, the project will pay the difference, with a
$50,000 ceiling on the overage. The contractor demonstrates he spent $623,000. How
much (gross) must the project remit to the contractor?
2. Another option for the same contract has the contractor guaranteed to be paid his
costs plus 20%, for costs that exceed $600,000. With the same initial assump-
tion—guarantee of $800,000 gross payment (no requirement to itemize costs), but if
the contractor can show that costs exceed $600,000, the project will pay $800,000
plus the costs that exceed $600,000, plus 20% of those excess costs, with a ceiling of
$900,000 gross. The contractor demonstrates he spent $623,000. How much (gross)
must the project remit to the contractor?
3. Under option 3.2, at what dollar amount of total costs would the contractor be
assuming all of the excess costs beyond that point?
4. In which option did the project assume more of the risk of a cost overrun? Explain.
Chapter 14: Quality Planning
2nd Edition 202

1. Prepare a Pareto chart of the possible causes for a student to fail a final examination in a univer-
sity course.
2. Vehicles are identified by RFID tags in order to collect bridge tolls. The project manager is con-
sidering two different technologies for RFID readers. By sampling two different options, the fol-
lowing data are collected about the accuracy of the readers:
Option 1: 99, 98, 99, 94, 92, 99, 98, 99, 94, 90 Option 2: 98, 97, 97, 97, 98, 98, 97, 97, 98
Calculate the mean, mode, and standard deviation of the two options.
Chapter 16: Risk Management Planning
1. Describe the general processes that should be followed in managing risks throughout a project. Be
sure to include the general sequence in which these processes are carried out.
2. Prepare a sample risk register for a project to put humans on Mars (four or five risks).
3. Prepare a probability versus impact matrix for your school’s Winter Club ski trip (at least four
identifiable risks).
4. For one of the risks you have identified in question 2 or 3, describe how it could be avoided,
transferred, mitigated, or accepted.
5. What is the difference between qualitative and quantitative risk analysis? Which one is always
done? Why is the other one not always done for every project?
203 Adrienne Watt

Appendix 3: Chapter Audio Files
Chapter 1
Chapter 2
Chapter 3
Chapter 4
Chapter 5
Chapter 6
Chapter 7
Chapter 8
Chapter 9
Chapter 10
Chapter 11 (Part 1)
Chapter 11 (Part 2)
Chapter 12
Chapter 13
Chapter 14
Chapter 15
Chapter 16
Chapter 17
Chapter 18
Chapter 19
204

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About the Author
Adrienne Watt holds a Computer Systems Diploma (BCIT), a Bachelors in Technology (BCIT) and a
Master’s in Business Administration (City University).
Since 1989, Adrienne has worked as an educator and gained extensive experience developing and
delivering business and technology curriculum to post-secondary students. During that time she ran a
successful software development business. In the business she worked as an IT Professional in a vari-
ety of senior positions including Project Manager, Database Designer, Administrator and Business Ana-
lyst. Recently she has been exploring a wide range of technology related tools and processes to improve
delivery methods and enhance learning for her students.
205

Versioning History
This page provides a record of edits and changes made to this book since its initial publication in the
B.C. Open Textbook Collection. Whenever edits or updates are made, we make the required changes in
the text and provide a record and description of those changes here. If the change is minor, the version
number increases by 0.01. However, if the edits involve substantial updates, the version number goes up
to the next full number. The files on our website always reflect the most recent version, including the
Print on Demand copy.
If you find an error in this book, please fill out the Report an Open Textbook Error form.
206

https://open.bccampus.ca/reporting-an-open-textbook-error/

Version Date Change Details
1.00 August14, 2014
Book added to the
B.C. Open
Textbook
Collection.
1.01 January31, 2017
Replaced Figure
7.4 Image replaced with an updated version.
1.02 June 12,2019
Updated the book’s
theme
The styles of this book have been updated, which may affect the
page numbers of the PDF and print copy.
1.03 September18, 2019
Accessibility
remediation and
updates.
Accessibility remediation:
• Link text edited to be descriptive.
• List of links added to the back matter of the book.
• Headings added.
• Image descriptions added.
• Images of tables replaced with accessible html tables.
• Tables reformatted for accessibility.
• Added an Accessibility Statement to the front matter.
Other changes include:
• Image size increased for improved readability in PDFs.
• Text attributions reformatted.
• Media attributions move to the end of chapter.
• Book info updated to provide up-to-date and complete
copyright and publication information.
• Updated the book’s cover.
• The numbering of some images and tables was changed.
• The licences on some chapters were change to CC
BY-SA or CC BY-NC-SA because they contained
remixed content with ShareAlike licence requirements.
207 Adrienne Watt

List of Links by Chapter for Print
This page contains a list of links to external resources referenced in this book for people who are using a
print version. Links are listed by the chapters in which they appear and are listed alphabetically. Internal
links are not included in this list.
Accessibility Statement
• Accessibility Toolkit – 2nd Edition: https://opentextbc.ca/accessibilitytoolkit/
• Appendix A: Checklist for Accessibility: https://opentextbc.ca/accessibilitytoolkit/back-mat-
ter/appendix-checklist-for-accessibility-toolkit/
• BCcampus Support: https://open.bccampus.ca/contact-us/
• Download this book in another file format: https://opentextbc.ca/projectmanagement/
• Report an Open Textbook Error: https://open.bccampus.ca/reporting-an-open-textbook-error/
• Web Content Accessibility Guidelines 2.0: https://www.w3.org/TR/WCAG20/
• Web version of Project Management: https://opentextbc.ca/projectmanagement/
About BCcampus Open Education
• Adoption of an Open Textbook: https://open.bccampus.ca/use-open-textbooks/tell-us-youre-
using-an-open-textbook/
• BCcampus: https://bccampus.ca/
• BCcampus Open Education: https://open.bccampus.ca/
• British Columbia Ministry of Advanced Education, Skills & Training:
https://www2.gov.bc.ca/gov/content/governments/organizational-structure/ministries-organi-
zations/ministries/advanced-education-skills-training
• Creative Commons licence: https://creativecommons.org/licenses/
• Hewlett Foundation: http://www.hewlett.org/
Chapter 4. Framework for Project Management
• PMI approach: http://www.pmi.org
208

Chapter 15. Communication Planning
• Time Zone Converter: http://www.timezoneconverter.com/cgi-bin/tzc.tzc
Appendix 1: PowerPoints
• All PowerPoints can be downloaded from this link: https://opentextbc.ca/projectmanagement/
back-matter/project-management-powerpoints/
Appendix 3: Chapter Audio Files
• All Audio files can be accessed from this link: https://opentextbc.ca/projectmanagement/
back-matter/appendix-3-chapter-audio-files/
209 Adrienne Watt

Project Management
Project Management
Contents
Accessibility Statement
About the Book
Introduction
Preface
1. Project Management: Past and Present
2. Project Management Overview
3. The Project Life Cycle (Phases)
4. Framework for Project Management
5. Stakeholder Management
6. Culture and Project Management
7. Project Initiation
8. Overview of Project Planning
9. Scope Planning
10. Project Schedule Planning
11. Resource Planning
12. Budget Planning
13. Procurement Management
14. Quality Planning
15. Communication Planning
16. Risk Management Planning
17. Project Implementation Overview
18. Project Completion
19. Celebrate!
Appendix 1: Project Management PowerPoints
Appendix 2: Chapter Questions
Appendix 3: Chapter Audio Files
About the Author
Versioning History
List of Links by Chapter for Print

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