PMP, CAPM, PgMP, PMI-SP , PMI-RMP, OPM3 and PMBOK - PowerPoint PPT Presentation

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PMP, CAPM, PgMP, PMI-SP , PMI-RMP, OPM3 and PMBOK

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Title: PMP, CAPM, PgMP, PMI-SP , PMI-RMP, OPM3 and PMBOK


1
Chapter 6Time Management
2
Project Time Management
  • Who is responsible for project delays?
  • What Tools and techniques do you use
  • To estimate activity durations?
  • To Manage Time?
  • How to handle changes?

3
Time Management Processes
  • Which Process Group do each of these activities
    belong in?
  • Define Activities
  • See WBS section under Scope Management
  • Sequence Activities
  • Estimate Activity Resources
  • Estimate Activity Duration
  • Develop Schedule
  • Control Schedule

4
Sequence Activities
  • Process of identifying and documenting
    relationships among project activities.
  • Sequenced using logical relationships
  • Connected to a predecessor and successor
  • Except the first and last activities
  • May be necessary to include lead or lag times
  • To support a realistic/achievable schedule

5
Precedence Diagram Method
  • PDM method used in Critical Path Methodology
    (CPM) for constructing a project schedule network
    diagram.
  • Also called Activity-On-Node

6
PDM Dependencies
  • PDM includes four types of dependencies or
    logical relationships
  • Finish-to-start (FS)
  • Initiation of the successor (S) depends upon the
    completion of predecessor (P)
  • Finish-to-finish (FF)
  • Completion of S depends upon completion of P
  • Start-to-start (SS)
  • Initiation of S depends upon initiation of P
  • Start-to-finish (SF)
  • Completion of S depends upon initiation of P
    (rarely used)

7
Dependency Determination
  • Mandatory dependencies
  • Contractually required or inherent in the nature
    of work (Hard Logic)
  • Discretionary dependencies
  • Preferred logic or soft logic based on best
    practices
  • External dependencies
  • Usually outside the teams control

8
Applying Leads and Lags
  • A lead allows an acceleration of the successor
    activity. Shown as a finish-to-start dependency
  • A lag directs a delay in the successor activity.
    Shown as a start-to-start relationship.

9
Quick Quiz
  • Define Activities and Sequence Activities
    belong to which process group?
  • Initiation
  • Planning
  • Monitoring and Controlling
  • Closing

10
Quick Quiz
  • The reason we build a network diagram during the
    Time Management Process is to
  • Identify activities
  • Help estimate time and resource
  • Identify relationships between activities
  • Verify WBS

11
Estimate Activity Resources
  • Process of estimating type and quantities of
    resources
  • Material
  • Equipment
  • People
  • Closely linked to Estimate Cost Process
  • Needs experience and industry knowledge for
    accurate estimates.
  • Historic documents a key asset in this process

12
Estimating Activity Duration
  • One-Point Estimate
  • Estimator submits one estimate per activity
  • Requires specialized knowledge and experience
  • Analogous Estimating (Top-down)
  • Expert judgment and historical information
  • Less costly and time consuming but less accurate
  • Parametric Estimating
  • Regression analysis (scatter diagram)
  • Learning curve

13
Estimate Activity Duration (Cont)
  • Heuristics - Rule of thumb
  • Design work is always 15 of total project length
  • Three-Point Estimates
  • Pert Analysis uses three estimates to define an
    approximate range for an activity duration
  • Most likely tm, Optimistic to, Pessimistic tp
  • tE (to4tmtp) \ 6
  • Standard Deviation (tp-t0) \ 6
  • Activity Variance (tp-t0) \ 62

14
Reserve Analysis
  • Discussed in Risk management chapter
  • Contingency reserves
  • After risk planning
  • Also called time reserve or buffers
  • Management reserves
  • Unforeseen risk

15
Develop Schedule
16
Develop Schedule Questions
17
Drawing Network Diagrams
Duration 5 days
Dig Foundations Float 3 Days
ES Day 3
EF Day 8
LF Day 11
LS Day 6
Source Rita Example Exercises Page 200
18
Critical Path Example
3
6
0
3
3
9
A
D
9
3
3
0
Start
End
4
4
0
4
4
8
B
E
9
5
5
1
5
0
5
C
4
9
Calculate paths and their durations.
F LS ES or LF - EF
How much float does a critical path have?
19
Exam Tip
  • Network diagrams are repeated between questions
    in the exam

20
Trick Question

6
A
ES ?
C
20
B
21
Trick Question 2

F
10
D
LF ?
G
2
22
Critical Path Method
  • Critical Path the longest path in the network
    diagram and the shortest time to complete the
    project, using the logical network
  • Outcome
  • Forward pass calculations identify the early
    start (ES) and early finish (EF) dates
  • Backward pass calculations identify the late
    start (LS) and late finish (LF) dates
  • Can a critical path change?
  • Can there be more than one critical paths?
  • What is the impact of more than one critical
    paths?

23
Critical Path Method Benefits
  • As the critical path is identified, additional
    risks may be identified, based on their position
    in the network
  • Shows explicit relationship
  • Co-ordinates big picture
  • Lays out flow of work
  • Encourages careful task analysis
  • Facilitates fact based problem solving

24
Critical Path Considerations
  • Near Critical Path
  • Has duration very close to Critical Path
  • Needs to be closely monitored
  • Can become Critical Path in certain circumstances
  • Why watch near critical paths?
  • Float (Slack)
  • Total float delay does not impact
    project/milestone
  • Free float delay does not impact successor
  • Project float delay does not impact external
    date

25
Schedule Compression
  • Fast Tracking
  • Activities running in series are split to run
    parallel
  • Impacts?
  • Crashing
  • Taking resources from non-critical path or from
    outside

26
Control Schedule
  • Process of monitoring the status of the project
    to update project progress and manage changes to
    the schedule baseline
  • Performance reviews
  • Variance Analysis
  • Project management software
  • Resource leveling
  • What-if scenario analysis
  • Adjust leads and lags
  • Schedule compression

27
End of Chapter quiz
28
Question 1
  • Activity A can start right away and takes 1 day
  • B can start after A finishes and takes 2 days
  • C can start after A finishes and takes 4 days
  • D can start after B C and takes 5 days
  • E can start after D and takes 6 days
  • F can start after C and takes 3 days
  • G can start after E F and takes 4 days
  • Project finishes after G is completed
  • What is the duration of the Critical Path?
  • 12
  • 30
  • 20
  • 19

29
Question 2
  • It takes the least amount of time to use which
    estimation technique?
  • One-Point
  • Three-Point
  • Parametric
  • Peer review

30
Question 3
  • During execution phase an unforseen risk is
    encountered, what should the project manager do?
  • Fast Track
  • Crash resources from a non critical path activity
  • Use Management Reserve
  • Use Contingency Reserve

31
Question 4
  • Activity A can start right away and takes 1 day
  • B can start after A finishes and takes 2 days
  • C can start after A finishes and takes 4 days
  • D can start after B C and takes 5 days
  • E can start after D and takes 6 days
  • F can start after C and takes 3 days
  • G can start after E F and takes 4 days
  • Project finishes after G is completed
  • What is the duration of the Float of Activity E?
  • 8
  • 0
  • 1
  • 2

32
Question 5
  • During estimating an activity three estimates
    were given
  • Optimistic 2 days
  • Most likely 5 days
  • Pessimistic 8 days
  • The calculated estimate for this activity is
  • 4 days
  • 6 days
  • 5 days
  • 9 days
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