Project Assignment Introduction

1. Project Assignment Introduction

2. Agenda • Project Assignment • Lab platform review • Project Planning & Execution • How to use this in the course

3. Project Assignment

4. Structure of the Assignment • The project assignment is divided into three parts, • Part 1 of the Project assignment involves analysing Smartgrid application requirements on the ICS village, designing a solution and document this in a Use Case as specified in the Use Case assignment. • Part 2 of the assignment involves implementing the system using the components in the ICS lab with a specific focus on the Multi-agent platform JACK and all necessary process communication equipment such as RTUs and IEDs. • Part 3 Involves creating a final report about the conducted work and presenting the results to the colleagues in the course during a final seminar.

5. Submission of Assignment • The final part 3 (report) shall be submitted via e-mail in PDF format to Lars Nordström, no later than: • December 10th 2012 at 12.00

6. Grading of the Assignment • The grade of the project assignment is set as below: • Fail - 3 Grade points or less • E - 4 Grade points, with at least 1 point in each category • D - 5 Grade points with at least 1 point in each category • C - 6 Grade points with at least 1 point in each category • B - 7 Grade points with at least 2 points in each category • A - 8 Grade points

7. Grade Points in Three categories • Implemented functionality: • 1 Grade Point: • The project team has developed a system that interfaces the hardware devices and ICS Village. However, the intended function was not implemented as specified. Note that this means that although the system is not working properly, the project team are able to interface the necessary system components but have not been able to implement the proper functionality. • 2 Grade Points: • The project team has implemented a system that operates according to specifications in Annex 1. • 3 Grade Points: • The project team has implemented a system that operates according to the specifications in Annex 1. In addition, the project team has developed additional functionality (excluding GUI) that was not considered in the specification.

8. Grading - continued • Project Structure • 1 Grade Point • The project team does in the report describe how work in the project was planned and executed • 2 Grade Points: • The project team performs planning of the project with clear time plan and allocates task to individual members. The progress of the project is successfully presented at the steering group meetings by any member of the group. The project plan is attached to the final report as an appendix to the project report, including minutes of project meetings, etc.

9. Grading continued • Project Presentation • 1 Grade Point: • Report in well-written English handed in before deadline. The group performs an oral presentation at the final seminar. Additionally the group studies another group’s project and provides a description and constructive criticism of the other groups work in an oral presentation at the final seminar. • 2 Grade Points: • In addition to the requirements for 1 Grade Point, the following is necessary to achieve 2 Grade points: The report covers all stages of the project and it is easy to follow the steps in the project. The report also describes the work during each of the steps of the project (Analysis, Design & Implementation) covering aspects such as which methods were used, what risks were identified and addressed, which problems arose and how were those addressed. The report clearly lists lessons learned from each step of the work. • 3 Grade points: • In addition to the requirements for 2 Grade Points the following is necessary to achieve 3 Grade points. The report also includes description of the work performed for additional functionality as described in Implemented Functionality for 3 Grade points

10. Project Tasks • Function 1 – FLIR – Fault Localisation, Isolation and Restoration (Group 1&3) • Normal operation in the supply of the Enemåla station is that only one of the lines from Bergsjö and Sjöhagen is operational at any time. In the event of a fault on either of these lines, the FLIR function shall locate the fault, isolate the line and restore supply to Enemåla. • Function 2 – Load control (Group 2) • The total supply of power to the system from the overlying network must never exceed a specified threshold. The loads in all points must be monitored and if necessary disconnected to maintain the limitations.

11. Project Groups • Group #1 • JoeriSiborgs • ChaitanyaDeshpanday • ChowdhuryClipton • M.K RiazeChowdhury • Group #2 • WardSnoeck • Lorenz Couckuyt • A.H.M. NazmulBakr • Group #3 • Enam Khan • TaslimShayek • SinduriKasala

12. Lab platform Review

13. Lab platform review • Target Power System– groups 1&2

14. Lab platform review • Target Power System – group 3

15. Lab platform review • Available Hardware

16. Available Software

17. Project Planning & Execution

18. Project phases • A project is always divided into phases • Each phase includes activities • Check points for phases: • Milestone • Tollgate Experience shows that such an approach provides a well thought through structure guiding the work to focus on the most important activities, ensuring final results of high quality

19. Choice of tollgates • Choosing tollgates is not hard • The project’s external check points with respect to the customer or project initiator • Most tollgates are more or less given by the customer, but it can be up to the project manager to plan them in a smart way

20. Choosing milestones is hard. The project’s internal check points Choose milestones so that you will never be late and never risk to miss a tollgate. Don’t put the milestones in direct relation to a tollgate Should be chosen so you think you can control the project Choice of milestones

21. PROPS, or PROjektet ProjektStyrning Source: PROPS

22. Practical Project Steering, PPS Project owner Why? Business level Project level Who, what, when? Project management Project team How? Source: Tieto

23. Project model ABB Automation Products Source: ABB

24. Prevas project model Source: http://www.it.uu.se/edu/course/homepage/pvt/Prevas.pdf

25. Basic phases • All projects include following phases: • (Name and number can vary) • Initiation • Planning • Execution • Monitoring and control • Closing

26. Initiation • Specify project goals, extent, content, delivery points and conditions • Identify project stakeholders • Assign a project manager • Project sponsor ensures the project's initial resources and needs • TollgateDocument • Project specification Project specification/ approved pre-study

27. Planning • Go through and complete the feasibility study • Analyze and define the outcome • Describe the scope and results • Select and adapt the approach • Organizing the project and secure resources • Planning and budgeting the project • Perform risk and opportunity analysis • TollgateDocument • Project plan approved Project plan

28. Execution • Differ from project to project, such as stages: • StageExample milestone • Functional Investigation Function description • System design Construction description • Module design Module description • Programme development Module test protocol • Composition Integration test protocol • Commissioning Acceptance protocol

29. Important during execution • Identify the project's critical issues • Monitor technology/quality, time and cost • Monitor risks and opportunities • Manage, prepare, decide and make changes • Report and communicate • Tollgates • Varies depending on the phases. Always associated • with deliverables.

30. Closing • Analyze the outcome of the objectives, results, schedules and costs • Compare with the original specification / plan • Comment deviations • TollgateDocument • Final report approved Final report

31. Project planning • Formulate the project goal • WBS – Work Breakdown Structure • Identify tasks • Identify dependencies • Estimate time • Identify the critical path • Distribute resources • Transfer to Gantt-schedules or other diagrams

32. 2. WBS - Work Breakdown Structure • A WBS is the most common way to analyze a project in order to achieve a detailed overall picture of what is to be done • Can be drawn in from many different perspectives • A WBS shall answer the question: • What must be done in order to complete the project? • It does not answer the question: • By whom? or... • When?

33. WBS • The more levels, the more detailed information • A WBS does not have a time perspective • i.e. nothing in the WBS tells you what should be done before anything else, nor how long it takes • What should be included in the WBS? • The deliverable parts • i.e. a breakdown of the system, product or service that the project will result in • The functional activities and tasks that are needed in order to create and deliver these parts • Other functional activities that are needed to manage and administrate the project

34. Relation WBS - PBS WBS Develop a new kind of satellite PBS receiver Construction Market Production Design a Investigate New prod. What new tuner the market line Create a Build a Sub- sales team prototype contractors Evaluate the Stock prototype Write work Train the sales team Interview some of the Create the advertisement How descriptions for the on the new product candidates different roles Plan a sales Publish the ad in Chose candidates for campaign some technical press interviews

35. Task and responsibility contracts • When the tasks are identified, it is time to distribute resources to them • Who is responsible for what? • Resources can also be rooms, computers and other equipments • A task contract can be a simple table

36. Activities Time The Gantt chart

37. Present situation line Activities Week 9 Time

38. How to use this in the course?

39. Simplified planning(no or few parallel activities) • Formulate the project goal • Divide the project into phases and activities • In what order are we going to do the work? • Break down the activities into work tasks • What are we going to do in each step? • Which are the deliveries (i.e. Milestones and Tollgates)? • Time estimate each work task • How much time will it take? • Schedule and divide the time estimated work tasks on each project participant (resource planning) • Who is spending their time on what task, and when should it be done?

40. Included in the project plan • Background • Goals • Organization • Project model • Comments on time and resource planning • Risk analysis • Document rules • Appendices • Time plan • Resource plan

41. Week 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 Updated     Project name: Milestone / Tollgate 1 5 9 2 6 10 Project manager 3 7 11 4 8 12 Project code Date Milestone diagram (or time plan)

42. Week 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 Updated 1 2 3 5 6 7 9 10 2003-03-08             Project name: EH2720 Manag. of projects Scheduling Lecture series Course evaluation 1 5 9 13 Contact lecturers Assignment 4 Course final 2 6 10 14 Project manager Joakim Lilliesköld Print course material Assignment 2 3 7 11 15 Assignment 3 Assignment 1 4 8 12 16 Project code Date EH2720 2003-05-01 Milestone diagram (or time plan) Milestone / Tollgate

43. Steeringgroup meetings • At steering group meetings, the group meets with the project sponsor (Lars Nordström) • At the meetings, the group presents • Progress to date • Any new documentation/results • Use of resources and time • Any risks or problems • Updates to the project specification • At the meetings, one member of the group will be selected at random to present the above.

44. Steeringgroup meeting schedule: • There shall be 5 steering group meetings per group • Meetings are 20 minutes • The following topics shall be covered at the meetings: • Project Plan including time, resources plan and risks • System design, including Use Case description and architecture incl use of hardware and software in the lab • Progress update – risks & resources • Progress update – risks & resources • Progress update – risks & resources

45. AvailableSteeringgroup meeting slots • Steering group meeting #1 • October 31st • 13.00, 13.20, 13.40 • Joakim Lilliesköld • Steering group meeting #2 • November 5th, 6th • 09.00, 09.20, 09.40 • Steering group meeting #3 • November 9th • 09.00, 09.20, 09.40 • November 12th • 10.00, 10.20, 10.40 • Steeringgroup meeting #4 • November 23rd • 09.00, 09.20, 09.40 • November 26th • 10.00, 10.20, 10.40 • Steeringgroup meeting #5 • December 3rd, 4th • 09.00, 09.20, 09.40 Other dates & times are available upon request, but should be kept to +/-1 day of the open slots. larsno@kth.se

46. Agenda • Project Assignment • Lab platform review • Project Planning & Execution