ch 17 PP:

Question 1

Projects

Answer 1

unique, one-time operations

specific set of objectives

limited time frame

Question 2

Performance Goals

Answer 2

respect schedule

respect budget

respect performance

Question 3

Project Phases

Answer 3

1. project initiation
2. planning and scheduling
3. execution and control
4. closeout

Question 4

Project Manager’s Responsibilities

Answer 4

Work

Quality

Human Resources

Time

Communications

Cost

Question 5

Project planning

Answer 5

analyzing the project into work packages & activities, estimating resources, durations, scheduling, etc

Question 6

Quality planning

Answer 6

How project and product quality is to be assured and controlled

Question 7

Communications planning

Answer 7

Determining the nature of information needed by stakeholders and how to satisfy these needs

Question 8

Purchase planning

Answer 8

What to purchase, specifications, supplier evaluation and selection, awarding contracts

Question 9

Risk

Answer 9

occurrence of events that have undesirable consequences

Question 10

Risk management

Answer 10

1. Identify potential risks
2. Analyze and assess risks
3. Work to minimize occurrence of risk
4. Establish contingency plans

Question 11

Project Management Tools

Answer 11

Work Breakdown Structure (WBS)

Gantt chart

CPM/PERT

Software (e.g. Microsoft Project)

Question 12

WBS (Work Breakdown Structure)

Answer 12

A hierarchical listing of what must be done during a project

Establishes a logical framework for identifying the required activities for the project

Question 13

Establishing a logical framework for identifying the required activities for the project steps?

Answer 13

1. Identify the major components of the project
2. Identify the major subcomponents
3. Break down subcomponents into work packages
4. Break down each work package into a list of the activities that will be needed to accomplish it

Question 14

Project Scheduling

Answer 14

Determining the timing of activities of the project

Question 15

PERT (program evaluation and review technique) and CPM (critical path method)

Answer 15

techniques used to schedule and control large projects

Question 16

Precedence Network

Answer 16

Diagram of project activities that shows sequential relationships by use of arrows and nodes

Question 17

Activity on arrow (AOA)

Answer 17

Network in which arrows designate activities

Question 18

Activity on node (AON)

Answer 18

Network in which nodes designate activities

Question 19

Path

Answer 19

A sequence of activities that leads from the starting node to the finishing node

Question 20

Critical path

Answer 20

The longest path from start to end

determines expected project duration

Question 21

Critical activities

Answer 21

Activities on the critical path

Question 22

Path slack time

Answer 22

Allowable slippage for a path

length of a path – length of critical path

Question 23

Deterministic

Answer 23

Time estimates that are fairly certain

Question 24

Probabilistic

Answer 24

Time estimates that allow for variation

Question 25

meanings of ES, EF, LS, LG

what are they used to determine?

Answer 25

ES: earliest time the activity can start

EF: earliest time the activity can finish

LS: latest time the activity can start

LF: latest time the activity can finish

Expected project duration

Activity slack times

Critical path

Question 26

Slack can be computed in which two ways?

Answer 26

Slack = LS – ES

Slack = LF – EF

Question 27

Critical path

Answer 27

The critical path is indicated by the activities with zero slack

Question 28

advantages of slack time

Answer 28

Helps planning of allocation of scarce resources

efforts directed toward activities that might delay project

assumption that activities will be started as early as possible and not exceed their expected time

Question 29

what do we mean when we say that slack time is shared?

Answer 29

If two activities on the same path have the same slack, this is total slack available to both

Question 30

The beta distribution

Answer 30

used to describe the inherent variability in activity durations

Question 31

The probabilistic approach involves which three time estimates

Answer 31

Optimistic time, (to)

Pessimistic time, (tp)

Most likely time, (tm)

Question 32

Optimistic time, (to)

Answer 32

The length of time required under optimal conditions

Question 33

Pessimistic time, (tp)

Answer 33

The length of time required under the worst conditions

Question 34

Most likely time, (tm)

Answer 34

The most probable length of time required

Question 35

The expected time, te ,for an activity

Answer 35

weighted average of the 3 time estimates

te = (to + 4tm + tp) / 6

Question 36

The expected duration of a path

Answer 36

equal to the sum of the expected times of the activities on that path

Question 37

The standard deviation of each activity’s time

Answer 37

estimated as 1/6th of the difference between pessimistic and optimistic estimates

Question 38

The variance

Answer 38

the square of the standard deviation

Question 39

Standard deviation of the expected time for the path

Answer 39

sum of variances of each activity on a path

Question 40

we use the path mean & standard deviation to compute what?

Answer 40

probability that the project will be completed by a certain time

probability that the project will take longer than its expected completion time

Question 41

independence of path durations must be respected by which conditions?

Answer 41

activity durations must be independent,

each activity must be on only one path

Question 42

PERT/CPM: Determining Path Probabilities steps

Answer 42

1. Determine 3 time estimates
2. Calculate Expected Time (Mean)
3. Calculate Activity Variance
4. Calculate Critical Path Variance (sum of variances of activities on critical path)
5. Calculate Z score of duration
6. Find Area of Z score (Appendix B: Normal table)
7. probability that time will be within specified = area probability that time will exceed specified = 1 – area

Question 43

To determine the probability that the project will be completed within the specified time, what do we do?

Answer 43

Calculate probability that each path will be completed within the specified time

Multiply these probabilities

Question 44

Simulation

Answer 44

Used when activity times may not be independent

Repeated sampling is used

Many passes are made through the network

In each pass, a random value for each activity selected from the probability distribution

After each pass, project’s duration is determined

After many passes, a frequency distribution of the project duration is prepared

this frequency distribution used for probabilistic estimates of project duration

Question 45

Crashing

Answer 45

Shortening activity durations

Question 46

motivations to crashing

Answer 46

Avoid late penalties

Monetary incentives for early completion

Free resources for other projects

Reduce indirect costs

Question 47

Options to crashing

Answer 47

Add more personnel

More (or more efficient) equipment

Relax specifications

Question 48

To make decisions concerning crashing requires information about what?

Answer 48

Regular time and crash time estimates for each activity

Regular cost and crash cost estimates for each activity

A list of activities that are on the critical path

Critical path activities are potential candidates for crashing

Question 49

why are non critical path activities not potential candidates for crashing?

Answer 49

Crashing non-critical path activities would not have an impact on overall project duration

Question 50

Crashing: Procedure

Answer 50

Crash least expensive activity on the critical path

After each crash, recalculate critical path

Crash activities on critical path one period at a time, until crash cost > benefit

if more than one critical path, crash the cheaper of

a common activity shared by the critical paths

sum of least expensive activities on each critical path

Question 51

Student’s Syndrome

Answer 51

a student tends to delay the start of an assignment until the last possible time

Question 52

Parkinson’s law

Answer 52

work expands to fill the time available for its completion

Question 53

how to fight Student’s Syndrome and Parkinson’s law

Answer 53

do not disclose due dates of activities to workers.

prioritize, schedule accordingly, and do activities asap.

eliminate padding in activity time estimates

add buffer time to end of critical chain (= longest path considering constraints)

Question 54

Scheduled time overrun

Answer 54

Scheduled time overrun = PV - EV

Planned Value (PV)

Earned Value (EV)

Question 55

Cost overrun

Answer 55

Cost overrun = actual cost - EV

Earned Value (EV)

Question 56

Gyu Project Management Softwares

Answer 56

Microsoft Project

Deltek (Welcom)

Question 57

Deltek (Welcom) supports what

Answer 57

Portfolio analysis

Risk management

Planning and scheduling

Project collaboration

Complete earned value management