ETI 4448 Applied Project Management - PowerPoint PPT Presentation

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ETI 4448 Applied Project Management

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Prof. Roy Levow Session 4 Second, determine the sequence of tasks Every task has at least one predecessor and at least one successor EXCEPT Start Task has no ... – PowerPoint PPT presentation

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Title: ETI 4448 Applied Project Management


1
ETI 4448Applied Project Management
  • Prof. Roy Levow
  • Session 4

2
Building the Work Breakdown Structure (Ch. 4) --
Outline
  • The Work Breakdown Structure
  • Uses for the WBS
  • Generating the WBS
  • Six Criteria to Test for Completeness in the WBS
  • Approaches to Building the WBS
  • Representing the WBS

3
Work Breakdown Structure
  • A hierarchical description of the work that must
    be done to complete the project as defined in the
    Project Overview Statement.
  • Inputs
  • POS
  • Requirements Document
  • Terms
  • Activity Chunk of work
  • Tasks Smaller chunk of work. Activities are
    made up of tasks
  • Work Package Complete description of how the
    tasks that make up the activity will actually be
    done

4
Decomposition
  • The process of breaking down work into a
    hierarchy of activities, tasks, and work packages
  • Uses
  • Estimate Duration
  • Determine Resources
  • Schedule Work

5
Uses for the WBS
  • Thought Process Tool
  • Architectural Design Tool
  • Planning Tool
  • Project Status Reporting Tool

6
Generating the WBS
  • Top-Down Approach Start with goal and continue
    to partition work until it has been sufficiently
    defined
  • Team Approach Variation
  • Subteam Approach Variation
  • Bottom-Up Approach First-level tasks are
    identified. Then groups are formed around
    first-level tasks where these groups brainstorm
    the activities needed to complete the first-level
    task.

7
WBS for Specific Projects
  • Small Projects Consider mindmapping
  • Diagram relating components radiating out from
    central element (Ref Wikipedia article)
  • Large Projects Intermediate WBS
  • Adaptive and Extreme Projects Iterative WBS

8
Six Criteria to Test for WBS Completeness
  • Status/Completion is measurable
  • The activity is bounded
  • The activity has a deliverable
  • Time and cost are easily estimated
  • Activity duration is within acceptable limits
  • Work assignments are independent
  • Seventh Criteria Project managers judgment
    that the WBS is not complete

9
Exceptions to the Completion Criteria Rule
  • Stopping Before Completion Criteria Are Met
  • Decomposing Beyond Completion of the Criteria

10
Approaches to Building the WBS
  • Noun-type In terms of the components of the
    deliverable
  • Physical Decomposition
  • Functional Decomposition
  • Verb-type In terms of the actions that must be
    done to produce the deliverable
  • Design-build-test-implement
  • Objectives
  • Organizational In terms of the units that will
    create the deliverable
  • Geographic
  • Departmental
  • Business Process

11
Representing WBSTree Structure
12
Representing WBSIndented Outline
13
Representing WBSWaterfall Structure
14
Estimating Duration, Resource Requirements, and
Cost Ch. 5
  • Outline
  • Estimating Duration
  • Estimating Resource Requirements
  • Estimating Duration as a Function of Resource
    Availability
  • Estimating Cost
  • Using a JPP Session to Estimate Duration,
    Resource Requirements, and Cost

15
Estimating Duration
  • The difference between Duration and Work Effort

16
Resource Loading Versus Task Duration
  • Crashing the task adding more resources to
    preserve duration
  • Diminishing returns
  • Crashpoint adding more resources INCREASES task
    duration
  • Considerations
  • Not always feasible (Can nine women have a baby
    in one month?)
  • Communication overhead increases
  • Risk increases

17
Variation in Task Duration
  • Varying skill levels
  • Unexpected events
  • Efficiency of work time
  • Mistakes and misunderstandings
  • Common cause variation

18
Six Methods for Estimating Task Duration
  • Similarity to other activities
  • Historical Data
  • Expert Advice
  • Delphi Technique
  • Group of experts individually estimate duration
  • Then, average of the estimates is calculated
  • Do it two more times
  • Three-Point Technique
  • most optimistic estimate, most pessimistic
    estimate, and most likely estimate, which are
    then averaged
  • Wide-band Delphi Technique
  • Combination of Delphi and Three-Point techniques

19
Estimation Life Cycles
  • Early estimates will not be as good as later
    estimates.

20
Estimating Resource Requirements
  • Types of resources
  • People
  • Facilities
  • Equipment
  • Money
  • Materials

21
People as Resources
  • Skills Matrices
  • Skills needed inventory
  • Skills currently on hand inventory
  • Skill Categories uniform listing of skills
  • Skill Levels level of expertise in a particular
    skill

22
Resource Breakdown Structure
Used to estimate resource and costs by showing
the positions needed for a particular project
23
Estimating Duration as a Function of Resource
Availability
  • Three variables influence Duration Estimate
  • Duration
  • Total amount of work (hours/days)
  • Percent per day that person can devote to task
  • Methods for Estimating Duration
  • Assign as a Total Work and a Constant Percent/Day
  • 40 hours / 0.50 80 hours
  • Assign as a Duration and Total Work Effort
  • 5 person days / 10 days 0.5
  • Assign as a Duration and Percent/Day
  • 10 days X 0.50 5 person days
  • Assign as a Profile (when using multiple
    resources)

24
Estimating Cost
  • Resource Planning
  • Trading money for time (depends on skill level)
  • Part-time workers (think of ramp-up time)
  • Dont overschedule resources
  • Cost Estimating
  • Order of magnitude estimate
  • Estimate is 25 above and 75 below final number
  • Budget estimate
  • Estimate is 10 above and 25 below final number
  • Definitive estimate
  • Estimate is 5 above and 10 below final number

25
Cost Budgeting and Cost Control
  • Cost Budgeting Assign costs to tasks on the WBS
  • Cost Control Two major issues
  • How often report of costs is needed
  • Depends on risk and need to spot developing
    problems
  • Use of a cost baseline to spot cost variances
    when you receive actual figures

26
Using Joint Project Planning Session to Estimate
Duration, Resource Requirements, and Cost
  • Advice from the author
  • Get it roughly right
  • Spend more effort on front-end activities than on
    back-end activities
  • Consensus is all that is needed

27
Constructing and Analyzing the Project Network
Diagram Ch. 6
  • Outline
  • The Project Network Diagram
  • Building the Network Diagram Using the Precedence
    Diagramming Method
  • Analyzing the Initial Project Network Diagram
  • Using the JPP Session to Construct and Analyze
    the Network

28
The Project Network Diagram
  • Definition A pictorial representation of the
    sequence in which the project work can be done.
  • What is needed to construct diagram
  • Tasks
  • Task Duration
  • Earliest time to start task
  • Earliest expected completion date for the project

29
Gantt Chart
  • Older than the project network diagram
  • Rectangular bars that show the duration by length
  • Placed along a timeline in sequence
  • Does not indicate what task needs to be done
    before and after a task
  • Does not indicate if the project planning is most
    effective or efficient

30
Advantages of the Project Network Diagram
  • Planning Visual overview of the project that is
    easy to use for scheduling
  • Implementation Software exists that
    automatically updates task dates and duration
  • Control Project manager can better schedule
    tasks and spot variances

31
Building a Network Diagram
  • Early Method Task-On-the-Arrow (TOA)

32
Building a Network Diagram
  • Precedence Diagramming Method (PDM)

33
Using PDM
  • First, every task in the WBS has a task node

34
Using PDM (Cont.)
  • Second, determine the sequence of tasks
  • Every task has at least one predecessor and at
    least one successor
  • EXCEPT
  • Start Task has no predecessor
  • End Task has no successor
  • Diagram the connections

35
Using PDM (Cont.)
Diagramming connections between tasks
36
Using PDM (Cont.)
Four Kinds of Task Dependencies
37
Constraints Determine Task Dependencies
  • Technical Constraints
  • Discretionary
  • Best-Practices
  • Logical
  • Unique
  • Management Constraints
  • Interproject Constraints
  • Date Constraints

38
Lag Variables
  • Pauses or delays between tasks
  • Can be intentional
  • Also created by constraints

39
Creating the Initial Project Schedule
  • Compute two schedules
  • Early schedule use Forward Pass
  • Late schedule use Backward Pass

Forward Pass
Backward Pass
Whats different?
40
Critical Path
  • The longest duration path in the network
    diagram
  • The sequence of tasks whose early schedule and
    late schedule are the same
  • The sequence of tasks with zero slack or float
  • The Critical Path Determines
  • the Completion Date of the Project

41
Calculating Critical Path
  • First method add up all of the paths
    durations. The longest one is the critical path.

42
Calculating Critical Path (Cont.)
  • Second method Compute the slack time
  • The amount of delay (in time units) in starting a
    task that will not affect the project completion
    date
  • Difference between late finish and early finish
    of a slack time
  • Do not include holidays, weekends, and similar
    such time
  • Two types of slack
  • Free slack amount of delay for a task without
    causing a delay in the early start of immediate
    successor task(s)
  • Total slack amount of delay for a task without
    delaying the project completion date

43
Analyzing the Initial Project Network Diagram
  • Crashing the schedule necessary when the
    initial project network diagram shows a projected
    completion date that is later than the requested
    completion date.
  • Strategies
  • Examine the Critical Path to see if you can move
    tasks off the Critical Path
  • Partition tasks into parallel subtasks
  • Concerns
  • Increase in risk
  • More communication and coordination needed

44
Example of Schedule Compression
45
Management Reserve
  • Padding task duration
  • Individual task level
  • Project level
  • Bad at the task level
  • BUT, good at the project level
  • Accounts for risk
  • Incentive (management reserve time not used can
    be the basis for bonus)
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