Unit
- Course
- Mechanical engineering
- Study-unit Code
- A001748
- Curriculum
- Gestionale
- CFU
- 12
- Course Regulation
- Coorte 2023
- Offered
- 2023/24
- Type of study-unit
- Obbligatorio (Required)
- Type of learning activities
- Attività formativa integrata
Code | A002362 |
---|---|
CFU | 5 |
Teacher | Stefano Antonio Saetta |
Teachers |
|
Hours |
|
Learning activities | Caratterizzante |
Area | Ingegneria meccanica |
Academic discipline | ING-IND/17 |
Type of study-unit | Obbligatorio (Required) |
Language of instruction | Italian |
Contents | Project Management Introduction The Development of Project Management The phases and the roles of Project Management. The Organization of Project Management. Project Management Planning. The Work Breakdown Structure The Network Planning Techniques |
Reference texts | Harold Kerzner Project Management, A system approach to planning, scheduling and controllin, 12th edition, 2017 Albert Lester, Project Management, Planning and control, 7th edition, 2017 |
Educational objectives | To introduce the student to the issue of the management of project: from the control of cost and time, to personnel management, conflict, communication. To use basic network planning tools. |
Prerequisites | Basic Industrial Engineering courses are suggested. In this manner student is more reactive to Project Management issues. |
Teaching methods | Frontal lessons |
Learning verification modality | Learning level evaluation is based on both the following: Quiz, Excercises, oral exam |
Extended program | PM Introduction. The certification of PM capabilities. What is PM? The role of Project Soonsor. PM in the timeline. The Triangle of Talents. The role of PM. The PM Maturity. Definition of PM. The PM activities. The role of PM within the ORganization. PM, Line Managers, The Project Sponsor. The development of PM, the history. The risks and obstacles. PM the development, the fiascos and the evolutions. Maturity Life Cycle. Definition of System, Project, Portfolio, Program. Maturity and Excellence. The Phases of a Project. The Cost-Benefits Analysis. The on going Control. The organization oriente toward PM. The classical functional organization. The pure Project Matrix. The PMO and PM team. PM and Management Function. PM an the management of communicaton and conflicts. The planning of a project. Definition, effectivenes, roles and responsabilities. The Statement of Work SOW. La work breakdown structure. Examples. The network scheduling techniques. Introduction and basis. Analysis and Valutations. Graphical Analysis. the slipchart. The estimation of completion time. The CPM, the PERT, PNET, simulation. |
Obiettivi Agenda 2030 per lo sviluppo sostenibile | 8 Decent work and economic Growth 9 Industry, Innovation and Infrastructure 12 Responsible consumption and production |
Code | A002361 |
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CFU | 7 |
Teacher | Lorenzo Tiacci |
Teachers |
|
Hours |
|
Learning activities | Caratterizzante |
Area | Ingegneria meccanica |
Academic discipline | ING-IND/17 |
Type of study-unit | Obbligatorio (Required) |
Language of instruction | Italian |
Contents | Strategic framework for the supply chain Designing the supply chain network Planning demand and supply Planning and managing inventories in a supply chain Designing and planning transportation networks |
Reference texts | S. Chopra, P. Meindl – Supply Chain Management – Pearson Silver, E.A., Pyke, D.F., Thomas D.J., Inventory and Production Management in Supply Chains - Fourth Ed. – CRC Press. |
Educational objectives | The aim of the course is to provide the basic knowledge for the design and management of a supply chain, in order to optimize the performances in terms of cost reduction and satisfaction of the level of service required. The main knowledge acquired will be: supply chain definitions and classifications, drivers and metrics for performance measurement. Theoretical knowledge related to the design of distribution networks Theoretical knowledge related to the design of supply chain nodes through MIP models. Theoretical knowledge on the characteristics of specific supply chains, such as those relating to perishable or seasonal items. Theoretical knowledge on the factors influencing decision making in transport planning. The main skills will be: application of forecasting techniques on historical data for the calculation of future needs Ability to set up sales and operation plans (S&OP) Ability to set up inventory management policies for perishable or seasonal items Ability to implement algorithms for vehicle scheduling and routing. |
Prerequisites | In order to understand and to apply most of the techniques described in the course it is essential the knowledge of the following topics: - Integral, indefinite integrals, multi-variable functions, maximum and minimum bounded - Probability density functions, basic concepts of statistics. It is also important to have succesfully taken an exam about Facilities Planning and Production Planning and Control. |
Teaching methods | The course is organized as follows: - Theoretical lessons on all topics of the program - Classroom exercises consisiting in solving practical problems The exercises are held during class time, and immediately follow the theoretical lesson to which they refer |
Other information | Attendance is not comulsory but strongly adviced. |
Learning verification modality | The exam consists of a written exam and an oral exam. The written exam consists in an exercise in which the student has to solve a problem that is usually faced in the design and management of a supply chain. The exercise aim is to determine the ability to correctly apply the theoretical knowledge, the understanding of the issues proposed, and the concentration ability needed to perform correctly the calculation needed to solve the problem. The test duration is approximately 1h 30m The oral exam consists of 3 questions designed to ascertain the level of knowledge and understanding of the issues on theoretical and methodological aspects of the program. The duration of the test is about 30 min. |
Extended program | Strategic framework for the supply chain: understanding the supply chain, performances, drivers and metrics Designing the supply chain network: designing the Distribution Network, Network Design in the supply chain Planning demand and supply : demand forecasting, aggregate planning, sals and operations planning Planning and managing inventories in a supply chain: Style goods and perishable items, multi-echelon supply chain. Designing and planning transportation networks: the role of transportation, factors affecting transportation decisions, design options for a transportation network, routing and scheduling in transportation |