1. © 2006 Prentice Hall, Inc.3 – 1 Operations Management Chapter 3 – Project Management Chapter 3 – Project Management © 2006 Prentice Hall, Inc. PowerPoint presentation to accompany Heizer/Render Principles of Operations Management, 6e Operations Management, 8e

2. © 2006 Prentice Hall, Inc.3 – 2 Strategic Importance of Project Management  Microsoft Windows Longhorn Project :  hundreds of programmers  millions of lines of code  millions of dollars cost  Ford Redesign of Mustang Project:  450 member project team  Cost $700-million  25% faster and 30% cheaper than comparable project at Ford

3. © 2006 Prentice Hall, Inc.3 – 3  Single unit  Many related activities  Difficult production planning and inventory control  General purpose equipment  High labor skills Project Characteristics

4. © 2006 Prentice Hall, Inc.3 – 4 Examples of Projects  Building Construction  Research Project

5. © 2006 Prentice Hall, Inc.3 – 5 Project Organization Works Best When  Work can be defined with a specific goal and deadline  The job is unique or somewhat unfamiliar to the existing organization  The work contains complex interrelated tasks requiring specialized skills  The project is temporary but critical to the organization

6. © 2006 Prentice Hall, Inc.3 – 6 Management of Projects  Planning - goal setting, defining the project, team organization  Scheduling - relates people, money, and supplies to specific activities and activities to each other  Controlling - monitors resources, costs, quality, and budgets; revises plans and shifts resources to meet time and cost demands

7. © 2006 Prentice Hall, Inc.3 – 7  Planning  Objectives  Resources  Work break-down schedule  Organization  Scheduling  Project activities  Start & end times  Network  Controlling  Monitor, compare, revise, action Project Management Activities

8. © 2006 Prentice Hall, Inc.3 – 8 Project Planning, Scheduling, and Controlling Figure 3.1 BeforeStart of projectDuring projectTimelineproject

9. © 2006 Prentice Hall, Inc.3 – 9 Project Planning, Scheduling, and Controlling Figure 3.1 BeforeStart of projectDuring projectTimelineproject

10. © 2006 Prentice Hall, Inc.3 – 10 Project Planning, Scheduling, and Controlling Figure 3.1 BeforeStart of projectDuring projectTimelineproject

11. © 2006 Prentice Hall, Inc.3 – 11 Project Planning, Scheduling, and Controlling Figure 3.1 BeforeStart of projectDuring projectTimelineproject

12. © 2006 Prentice Hall, Inc.3 – 12 Project Planning, Scheduling, and Controlling Figure 3.1 BeforeStart of projectDuring projectTimelineproject Budgets Delayed activities report Slack activities report Time/cost estimates Budgets Engineering diagrams Cash flow charts Material availability details CPM/PERT Gantt charts Milestone charts Cash flow schedules

13. © 2006 Prentice Hall, Inc.3 – 13  Establishing objectives  Defining project  Creating work breakdown structure  Determining resources  Forming organization Project Planning

14. © 2006 Prentice Hall, Inc.3 – 14  Often temporary structure  Uses specialists from entire company  Headed by project manager  Coordinates activities  Monitors schedule and costs  Permanent structure called ‘matrix organization’ Project Organization

15. © 2006 Prentice Hall, Inc.3 – 15 A Sample Project Organization Test Engineer Mechanical Engineer Project 1 Project Manager Technician Project 2 Project Manager Electrical Engineer Computer Engineer Marketing Finance Human Resources Design Quality Mgt Production President Figure 3.2

16. © 2006 Prentice Hall, Inc.3 – 16 The Role of the Project Manager Highly visible Responsible for making sure that:  All necessary activities are finished in order and on time  The project comes in within budget  The project meets quality goals  The people assigned to the project receive motivation, direction, and information

17. © 2006 Prentice Hall, Inc.3 – 17 The Role of the Project Manager Highly visible Responsible for making sure that:  All necessary activities are finished in order and on time  The project comes in within budget  The project meets quality goals  The people assigned to the project receive motivation, direction, and information Project managers should be:  Good coaches  Good communicators  Able to organize activities from a variety of disciplines

18. © 2006 Prentice Hall, Inc.3 – 18 Ethical Issues  Bid rigging – divulging confidential information to give some bidders an unfair advantage  “Low balling” contractors – try to “buy” the project by bidding low and hope to renegotiate or cut corners  Bribery – particularly on international projects  Expense account padding  Use of substandard materials  Compromising health and safety standards  Withholding needed information  Failure to admit project failure at close

19. © 2006 Prentice Hall, Inc.3 – 19 Work Breakdown Structure Level 1.Project 2.Major tasks in the project 3.Subtasks in the major tasks 4.Activities (or work packages) to be completed

20. © 2006 Prentice Hall, Inc.3 – 20 Work Breakdown Structure Figure 3.3 Level ID LevelNumberActivity 11.0Develop/launch Windows Longhorn OS 21.1Development of GUIs 21.2Ensure compatibility with earlier Windows versions 31.21Compatibility with Windows ME 31.22Compatibility with Windows XP 31.23Compatibility with Windows 2000 41.231Ability to import files

21. © 2006 Prentice Hall, Inc.3 – 21  Identifying precedence relationships  Sequencing activities  Determining activity times & costs  Estimating material and worker requirements  Determining critical activities Project Scheduling

22. © 2006 Prentice Hall, Inc.3 – 22 Purposes of Project Scheduling 1.Shows the relationship of each activity to others and to the whole project 2.Identifies the precedence relationships among activities 3.Encourages the setting of realistic time and cost estimates for each activity 4.Helps make better use of people, money, and material resources by identifying critical bottlenecks in the project

23. © 2006 Prentice Hall, Inc.3 – 23  Gantt chart  Critical Path Method (CPM)  Program Evaluation and Review Technique (PERT) Project Management Techniques

24. © 2006 Prentice Hall, Inc.3 – 24 A Simple Gantt Chart Time J F M A M J J A S Design Prototype Test Revise Production

25. © 2006 Prentice Hall, Inc.3 – 25 Passengers Baggage Fueling Cargo and mail Galley servicing Lavatory servicing Drinking water Cabin cleaning Cargo and mail Flight services Operating crew Baggage Passengers Deplaning Baggage claim Container offload Pumping Engine injection water Container offload Main cabin door Aft cabin door Aft, center, forward Loading First-class section Economy section Container/bulk loading Galley/cabin check Receive passengers Aircraft check Loading Boarding 015304560 Minutes Service For A Delta Jet Figure 3.4

26. © 2006 Prentice Hall, Inc.3 – 26 Project Control Reports  Detailed cost breakdowns for each task  Total program labor curves  Cost distribution tables  Functional cost and hour summaries  Raw materials and expenditure forecasts  Variance reports  Time analysis reports  Work status reports

27. © 2006 Prentice Hall, Inc.3 – 27  Network techniques  Developed in 1950’s  CPM by DuPont for chemical plants (1957)  PERT by Booz, Allen & Hamilton with the U.S. Navy, for Polaris missile (1958)  Consider precedence relationships and interdependencies  Each uses a different estimate of activity times PERT and CPM

28. © 2006 Prentice Hall, Inc.3 – 28 Six Steps PERT & CPM 1.Define the project and prepare the work breakdown structure 2.Develop relationships among the activities - decide which activities must precede and which must follow others 3.Draw the network connecting all of the activities

29. © 2006 Prentice Hall, Inc.3 – 29 Six Steps PERT & CPM 4.Assign time and/or cost estimates to each activity 5.Compute the longest time path through the network – this is called the critical path 6.Use the network to help plan, schedule, monitor, and control the project

30. © 2006 Prentice Hall, Inc.3 – 30 1.When will the entire project be completed? 2.What are the critical activities or tasks in the project? 3.Which are the noncritical activities? 4.What is the probability the project will be completed by a specific date? Questions PERT & CPM Can Answer

31. © 2006 Prentice Hall, Inc.3 – 31 5.Is the project on schedule, behind schedule, or ahead of schedule? 6.Is the money spent equal to, less than, or greater than the budget? 7.Are there enough resources available to finish the project on time? 8.If the project must be finished in a shorter time, what is the way to accomplish this at least cost? Questions PERT & CPM Can Answer

32. © 2006 Prentice Hall, Inc.3 – 32 A Comparison of AON and AOA Network Conventions Activity onActivityActivity on Node (AON)MeaningArrow (AOA) A comes before B, which comes before C (a) A B C BAC A and B must both be completed before C can start (b) A C C B A B B and C cannot begin until A is completed (c) B A C A B C Figure 3.5

33. © 2006 Prentice Hall, Inc.3 – 33 A Comparison of AON and AOA Network Conventions Activity onActivityActivity on Node (AON)MeaningArrow (AOA) C and D cannot begin until A and B have both been completed (d) A B C D B AC D C cannot begin until both A and B are completed; D cannot begin until B is completed. A dummy activity is introduced in AOA (e) CA BD Dummy activity A B C D Figure 3.5

34. © 2006 Prentice Hall, Inc.3 – 34 A Comparison of AON and AOA Network Conventions Activity onActivityActivity on Node (AON)MeaningArrow (AOA) B and C cannot begin until A is completed. D cannot begin until both B and C are completed. A dummy activity is again introduced in AOA. (f) A C DB AB C D Dummy activity Figure 3.5

35. © 2006 Prentice Hall, Inc.3 – 35 AON Example ActivityDescription Immediate Predecessors A Build internal components — B Modify roof and floor — C Construct collection stack A D Pour concrete and install frame A, B E Build high-temperature burner C F Install pollution control system C G Install air pollution device D, E H Inspect and test F, G Milwaukee Paper Manufacturing's Activities and Predecessors Table 3.1

36. © 2006 Prentice Hall, Inc.3 – 36 AON Network for Milwaukee Paper A Start B Start Activity Activity A (Build Internal Components) Activity B (Modify Roof and Floor) Figure 3.6

37. © 2006 Prentice Hall, Inc.3 – 37 AON Network for Milwaukee Paper Figure 3.7 C D A Start B Activity A Precedes Activity C Activities A and B Precede Activity D

38. © 2006 Prentice Hall, Inc.3 – 38 AON Network for Milwaukee Paper G E F H C A Start DB Arrows Show Precedence Relationships Figure 3.8

39. © 2006 Prentice Hall, Inc.3 – 39H (Inspect/ Test) 7 Dummy Activity AOA Network for Milwaukee Paper 6 F (Install Controls) E (Build Burner) G (Install Pollution Device) 5 D (Pour Concrete/ Install Frame) 4C (Construct Stack) 1 3 2 B (Modify Roof/Floor) A (Build Internal Components) Figure 3.9

40. © 2006 Prentice Hall, Inc.3 – 40  CPM assumes we know a fixed time estimate for each activity and there is no variability in activity times  PERT uses a probability distribution for activity times to allow for variability Variability in Activity Times

41. © 2006 Prentice Hall, Inc.3 – 41  Three time estimates are required  Optimistic time (a) – if everything goes according to plan  Most–likely time (m) – most realistic estimate  Pessimistic time (b) – assuming very unfavorable conditions Variability in Activity Times

42. © 2006 Prentice Hall, Inc.3 – 42 Probability of Project Completion PERT makes two more assumptions:  Total project completion times follow a normal probability distribution  Activity times are statistically independent

43. © 2006 Prentice Hall, Inc.3 – 43 Trade-Offs And Project Crashing  The project is behind schedule  The completion time has been moved forward It is not uncommon to face the following situations: Shortening the duration of the project is called project crashing

44. © 2006 Prentice Hall, Inc.3 – 44 Factors to Consider When Crashing A Project  The amount by which an activity is crashed is, in fact, permissible  Taken together, the shortened activity durations will enable us to finish the project by the due date  The total cost of crashing is as small as possible

45. © 2006 Prentice Hall, Inc.3 – 45 Advantages of PERT/CPM 1.Especially useful when scheduling and controlling large projects 2.Straightforward concept and not mathematically complex 3.Graphical networks help to perceive relationships among project activities 4.Critical path and slack time analyses help pinpoint activities that need to be closely watched

46. © 2006 Prentice Hall, Inc.3 – 46 Advantages of PERT/CPM 5.Project documentation and graphics point out who is responsible for various activities 6.Applicable to a wide variety of projects 7.Useful in monitoring not only schedules but costs as well

47. © 2006 Prentice Hall, Inc.3 – 47 1.Project activities have to be clearly defined, independent, and stable in their relationships 2.Precedence relationships must be specified and networked together 3.Time estimates tend to be subjective and are subject to fudging by managers 4.There is an inherent danger of too much emphasis being placed on the longest, or critical, path Limitations of PERT/CPM

48. © 2006 Prentice Hall, Inc.3 – 48 Using Microsoft Project Program 3.1

49. © 2006 Prentice Hall, Inc.3 – 49 Using Microsoft Project Program 3.2

50. © 2006 Prentice Hall, Inc.3 – 50 Using Microsoft Project Program 3.3

51. © 2006 Prentice Hall, Inc.3 – 51 Using Microsoft Project Program 3.4

52. © 2006 Prentice Hall, Inc.3 – 52 Using Microsoft Project Program 3.5

53. © 2006 Prentice Hall, Inc.3 – 53 Using Microsoft Project Program 3.6

54. © 2006 Prentice Hall, Inc.3 – 54 Using Microsoft Project Program 3.7