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PROJECT MANAGEMENT ENCE7323 TO 763N

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Thursday 12/28 (all nighter?) Friday 12/29 hand delivered to empty Acme office. Summation: ... event cannot begin until all activities entering the event are ... – PowerPoint PPT presentation

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Title: PROJECT MANAGEMENT ENCE7323 TO 763N


1
PROJECT MANAGEMENTENCE-7323TO 763-N
  • CLASS 2
  • September 10, 2000
  • Carl E. Edlund
  • 214-665-8124
  • cedlund_at_prodigy.net

edlund.carl_at_epa.gov
2
PROJECT PLANNING AND SCHEDULING (PART 1)
  • 1.0 Concepts in Class 1 also discuss NPDES
    Outfall
  • 2.0 Review Homework No. 1
  • 3.0 Nature/importance of Project Planning and
    Scheduling
  • 4.0 Planning and Scheduling Tools
  • 5.0 Fundamentals of the Critical Path Method
    (CPM)
  • 6.0 Benefits/drawbacks of CPM

3
PROJECT MANAGERS CONSTRAINTS
TIME
COST
PEOPLE EQPT FACIL. MTL INFO TECH
RESOURCES
PERFORMANCE / TECHNOLOGY
4
EVOLUTION OF WORK1900 INDUSTRIAL MODEL
L
M
M
M
FOREMEN
T
T
T
T
T
5
DIFFERENCESProduction Line vs Project
Organization
6
EVOLUTION OF WORK
2000 TALENTED TEAM MODEL WORK IS HOLISTIC
K. S. As - MGMT - TASK - TEAM - L- SHIP
PROJECT TEAMS
M
L
TS
T
7
HOMEWORK NO. 1CRITIQUING A PROJECT
  • SCENARIO
  • On October 28 of last year, John Smith, a
    recently promoted project manager with the
    consulting firm of Succup Druel, Inc. (SD),
    received a call from Jane Doe, the Environmental
    Manager for Acme Industries. Ms Doe asked Smith
    to submit a proposal to conduct an initial
    investigation of a suspected release from one of
    the underground storage tanks (USTs) at the
    company's fueling facility.

8
HOMEWORK 1 CRITIQUING A PROJECT
  • 10/28 Jane Doe Acme called John Smith SD
  • Proposal for leaking ? UST
  • Fast! TNRCC needs
  • John Smith
  • Limited Project Management experience
  • Consulted Hoss Ritter good feedback
  • Prepared proposal

9
HOMEWORK 1 CRITIQUING A PROJECT
  • Smiths proposal
  • Consistent with regs
  • Soil gas survey
  • Sampling and analysis
  • 4 borings developed as GW wells
  • Costs
  • Consistent with TNRCC requirements
  • Lab and drilling contract estimates based on last
    years project

10
HOMEWORK 1 CRITIQUING A PROJECT
  • Jane Doe Acme
  • Verbal approval, contract
  • Agreed with scope, budget,schedule
  • December 31 deadline !!
  • Project Team
  • John Smith
  • Gray Hare
  • Carole Lumbardy
  • Yan Nu

11
HOMEWORK 1 CRITIQUING A PROJECT
  • Project Tasks
  • 1. Initial reconnaissance
  • 2. Research site history
  • 3. Compile data
  • 4. Phase I field investigation
  • 5. Evaluate Phase I data
  • 6. Prepare report

12
HOMEWORK 1 CRITIQUING A PROJECT
13
HOMEWORK 1 CRITIQUING A PROJECT
  • Planning meeting
  • Hare
  • Watch drilling and lab contractors .. No bids yet
  • Available for Rs
  • Subcontracts
  • 3 Drillers
  • 15 higher than estimate
  • 3 Labs
  • On target with estimate

14
HOMEWORK 1 CRITIQUING A PROJECT
  • Progress
  • Tasks 1,2 on schedule
  • Task 3
  • TNRCC approval delay resulted in 1.5 week delay
    to start drilling
  • PSH issue
  • 8 hour standby
  • additional day per diem for 3 men
  • Task 4
  • Delay of sample delivery and holiday conflict
  • Premium for fast delivery

(only 25)
15
HOMEWORK 1 CRITIQUING A PROJECT
  • Task 5 done in 5 days
  • Task 6
  • to Hare for review Wednesday 12/20
  • Friday 12/22 Tuesday 12/26
  • Thursday 12/28 (all nighter?)
  • Friday 12/29 hand delivered to empty Acme office
  • Summation
  • Doe Great work .. More to come.
  • Hare You blew it by how much ?

16
HOMEWORK NO. 1CRITIQUING A PROJECT
  • Requirement Analyze John Smith's initial
    performance as a project manager in terms of
    planning, organization, staffing, direction, and
    control.

17
Project Life Cycle
DEFINE
CLOSE
CONTROL
PLAN
18
Project Life Cycle
DEFINITION
  • STATEMENT OF WORK
  • RESPONSIBILITES MATRIX
  • COMMUNICATION PLAN
  • CHARTER
  • ENLIST SPONSOR
  • NAME STAKEHOLDERS
  • MAKE RULES

19
Project Life Cycle
PLANNING
  • RISK LOG
  • SCHEDULE
  • BUDGET
  • RESOURCE PLAN
  • RISK MANAGEMENT
  • DETAILED SCHEDULING
  • RESOURCE ESTIMATING

20
Project Life Cycle
CONTROL
  • MEASURE PROGRESS
  • COMMUNICATION
  • CORRECTIVE ACTION
  • PROGRESS REPORTS

21
Project Life Cycle
CLOSEOUT
  • RECONCILE ACCOUNTS
  • LESSONS LEARNED
  • PREPARE FOR NEXT JOB
  • FINAL PRODUCT
  • CUSTOMER ACCEPTS

22
Project Life Cycle
DEFINE
CLOSE
CONTROL
PLAN
FEEDBACK CHANGES CORRECTIONS
23
PROJECT PLANNING AND SCHEDULING
  • The project manager uses a planning and
    scheduling process because most projects are
    complex and of long duration and require
    visualization of their parts, when they should
    occur, and the resources needed. A planning and
    scheduling process

24
PROJECT PLANNING AND SCHEDULING
  • Identifies project activities (tasks/steps)
  • Identifies the sequence and duration of project
    activities
  • Organizes project resources (labor, equipment,
    materials, technology, facilities)
  • Enables monitoring of project progress

25
PLANNING AND SCHEDULING TOOLS
  • Bar (Gantt) charts
  • Critical Path Method (CPM) and Program
    Evaluation Review Technique (PERT)
  • Level of Effort (Manual v/s Computerized
    Applications)

26
BAR (GANTT) CHARTS
  • Key Elements
  • Activity List
  • Time Line
  • Activity Duration Assignments
  • Example(next page)
  • Strengths/Weaknesses
  • Applications
  • Proposals
  • Status Briefings
  • Work Schedules
  • In-Class Practical Exercise

27
EXAMPLE
2001
Sep
October
November
Task Name
29
13
20
27
3
17
24
6
10
PROJECT KICKOFF MEETING
PROJECT COORD. EQUIP. MOB.
FIELD WORK
LAB TESTING DATA VALIDITY
DATA REVIEW REPORT PREP.
DRAFT REPORT COMPLETION
28
PRACTICAL EXERCISE
  • On September 1 Horace Kantwate, a seasoned
    project manager for SD, received a call from
    ERU's Bob Jones. Jones asked Kantwate for a
    rough schedule of work that would needed to
    submit a permit application for a new solid waste
    landfill that ERU planned. SD was to assume a
    January 2002 start date for beginning the
    permitting project e.g. submit draft permit to
    SEA. After getting preliminary information on
    the type, size, and location for the landfill,
    Kantwate

29
PRACTICAL EXERCISE
  • prepared a schedule. The tasks and estimated
    durations were as shown below
  • Activity Estimated
    Duration(days)
  • Preliminary Investigation and
  • Feasibility Study
    50
  • Field Investigation
    60
  • Engineering Analysis and Design
    40
  • Permit Preparation
    80
  • Requirement Prepare a Bar (Gantt) chart schedule
    for the proposed landfill permitting project
    CAN the permit be submitted before the end of
    January?

30
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • Critical Path Method (CPM)
  • As a Planning and Scheduling Tool
  • It is a formal, graphic means of determining the
    relationship between the activities (tasks) in a
    project.
  • It enables systematic isolation of activities
    comprising the critical elements that set the
    duration of a project.

31
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • It helps the project manager analyze a project
    before, during, and after operations.
  • The greatest asset of CPM is its portrayal of
    critical activities, giving the project manager
    forewarning of where he or she might expect
    schedule problems.

32
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • About CPM
  • The core of CPM is a network diagram that
    represents the manager's best effort at efficient
    planning and scheduling of project activities.
  • The network diagram consists of arrows
    (activities) and circles (events). Activities
    represent work and consume resources and time
    events do not, rather they mark points in time
    when activities begin or finish. The length of
    an arrow has no relevance.

33
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • The CPM network has one starting event and one
    ending event.
  • Each activity is bounded by two events, one at
    the tail (starting point) and one at the head
    (ending point).

Activity
Event
Event
Mobilize
Drill Borings
1
3
2
2
3
i
i
j
j
Duration (Days)
34
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • The event circles bounding an activity are
    numbered, the number of the tail event is that
    activity's "i" designation the number of the
    head event is that activity's "j" designation.
    By convention, j is numerically higher than i,
    portraying left to right movement through the
    network diagram. The j designation of a
    preceding activity is the i designation of the
    succeeding activity.

35
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • Dummy arrows (dashed lines) may be needed in a
    network diagram to show logic or achieve unique
    i-j designation for activities dummy arrows do
    not consume resources or time.

DUMMY ARROW
A
2
A
3
0
3
1
1
3
3
B
B
2
2
36
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • Network diagrams flow from left to right with
    horizontal or vertical numbering of events. See
    illustration on next page.
  • Analysis of the network diagram will disclose the
    float time (schedule flexibility) available for
    each activity. An activity's Total Float time
    represents the delay that can occur in starting
    the activity without delaying the overall
    project an activity's Free Float time is the
    delay the activity can sustain without delaying a
    subsequent activity.

37
VERTICAL HORIZONTAL NUMBERING
2
6
VERTICAL
3
7
10
13
1
11
8
4
2
3
12
9
5
4
5
6
13
1
9
8
7
HORIZONTAL
12
11
10
38
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • Eight Steps to Using CPM to Manage a Project
  • ? Identify the activities (tasks) in the project
    and their durations.
  • ? Determine for each activity the logic that
    governs when it can occur, i.e., what must
    precede the activity, what can occur at the same
    time, and what must follow (precedence,
    concurrence, succession).

39
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • ? Draw a network diagram that reflects the best
    progression of the project (i.e., order
    activities in a logical sequence that minimizes
    project duration). For each activity, place the
    name of the activity above the arrow and the
    duration of the activity below the arrow.
  • ? Determine the earliest event times (EETs) and
    latest event times (LETs) for each event in the
    network diagram.

40
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • Compute EETs
  • The EET for Event 1 is 0 (representing the end of
    day 0 or the beginning of day 1).
  • Trace each activity and add that activity's
    duration to the preceding EET. The sum will be
    the EET for the next event, unless two or more
    activities enter that event. IF two or more
    activities enter an event, the EET for that event
    will be the largest of the computed

41
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • EETs, SINCE activities leaving that event cannot
    begin until all activities entering the event are
    complete. Place the EET in a box symbol adjacent
    to the event symbol.
  • Continue the procedure from left to right until
    reaching the end of the diagram.
  • The EET for the last event is the earliest
    possible time the entire project can be
    completed, given the network as drawn and the
    activity durations assigned.

42
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • of the activity. The result will be the LET at
    the tail of the activity, unless the tails of two
    or more activities converge at the event. If the
    tails of two or more activities converge, the LET
    at the tail event will be the smallest computed
    time. To select a larger LET would delay
    (extend) the time of the project. Place the LET
    in a triangle symbol adjacent to the event
    symbol.
  • Continue from right to left to the beginning of
    the diagram.

43
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • ? Determine and highlight the critical path
    (those critical activities that define the
    duration of the project). Activities are
    critical if
  • The EET and LET at the tail of the activity are
    equal.
  • The EET and LET at the head of the activity are
    equal.
  • The difference between the EET (or LET) at the
    head and the EET (or LET) at the tail equals the
    activity duration.

44
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • There will be at least one critical path
    extending from the beginning to the end of the
    project.
  • ? Tabulate activity times (early start, early
    finish, late start, late finish, total float, and
    free float) that can help you schedule resources
    and identify schedule flexibility.
  • Early Start (ES) The EET (entered in the box
    symbol) at the tail of the activity arrow

45
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • Early Finish (EF) ES Activity Duration
  • Late Start (LS) LF - Activity Duration
  • Late Finish (LF) The LET (entered in the
    triangle symbol) at the head of the activity
    arrow
  • Total Float (TF) LS - ES LF EF
  • Free Float (FF) EET (at the head) - EF

46
FUNDAMENTALS OF THE CRITICAL PATH METHOD (CPM)
  • Interfering float (that which delays a
    subsequent activity, but not the total project)
    equals TF - FF for a given activity, it is also
    equal to the difference between the LET and EET
    at the head of that activity's arrow.
  • ? Schedule activities and allocate resources to
    maximize efficiencies and minimize project time.
  • ? During the project, measure progress taking
    action where necessary and modifying the network
    diagram as needed.

47
SUMMARY OF BENEFITS OF THE CRITICAL PATH METHOD
  • Provides graphic representation of the sequence
    and interdependency of activities
  • Enables prediction of project duration
  • Highlights critical path activities and project
    float time
  • Enables detailed planning/scheduling prior to
    starting the project

48
BENEFITS OF THE CRITICAL PATH METHOD (CPM)
  • Enables tracking of project activities and timely
    response to changed conditions
  • Can be used for alternatives analysis
  • Aids in estimating/allocating resources and costs
    and visualizing constraints

49
LOOSE CANNONSNO. 3
  • Susan Queue, SD project manager, wrestled with
    the enormity of the project. There were so many
    tasks to accomplish. She wondered what was the
    best arrangement of the tasks and how long the
    project would take. She knew some tasks could
    not start until others were finished, while
    others were unconstrained. She wondered how much
    flexibility she had in the project, how critical
    task start and stop times were, and how to
    allocate resources.
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