This course is organized through four sections and four actions: theory, teamworks, examples of applied industrial test cases and a final mini challenge. It is aimed to exploit the SysML language to implement the Model Based Systems Engineering approach in tight connection to the development of the so-called Digital Twin. Realizing the advantages of this methodology and showing the participants how the SysML language is used in a tool are both goals of this module. Each section focuses on a specific topic and introduces its main theoretical contents. Some test cases, already developed by the instructors, are exploited to show how those contents are practically implemented, in some industrial applications. Particularly, after a theoretical introduction of the concepts, a first working session is proposed to participants to apply those contents, through the "learning by doing" approach and thus to interact better with the instructors. A practical session is then introduced to work on tools. Larger systems are even analysed, and the implementation of the MBSE is just shown, as it was developed, to describe at a glance, the frame of an industrial project. This coures is aiming at educating participants and training by invoving people as much as possible, by applying the newest educational approaches. Some professionals coming from companies will offer some seminars about the activities currently going on and related design approaches. At the end, participants will just make a oral synthesis to the audience of the teamworks developed during the course to the audience, on some real systems, and they will give an overview of use of learnt tools and methodologies witjin the development of their PhD thesus.

Fundamentals of engineering

Module 1 1. T – The Systems Engineering in a nutshell and development of Digital Tein in design 2. T – The methodology of SE/MBSE 3. W – Working session 1 4. T – The language SysMl and other one currently proposed 5. T – Fundamental diagrams of the SysML 6. W – Working session 2 Module 2 1. T – The Requirement Analysis 2. W – Working session 3 3. OL – Open Lab: test cases of Space/ Aeronautic / Mechatronic Industries 4. T – The modeling activity 5. T – The Operational analysis 6. W – Working session 4 7. OL – Open Lab: test cases of Space/ Aeronautic / Mechatronic Industries Module 3 1. T – The Functional Analysis 2. W – Working session 5 3. OL – Open Lab: test cases of Space/ Aeronautic / Mechatronic Industries 4. T – The Logical Analysis 5. W – Working session 6 6. OL – Open Lab: test cases of Space/ Aeronautic / Mechatronic Industries Module 4 1. T – The Physical Analysis 2. W – Working session 7 3. OL – Open Lab: test cases of Space/ Aeronautic / Mechatronic Industries 4. T – The Multidisciplinary and Heterogeneous simulation 5. OL – Open Lab: test cases of Space/ Aeronautic / Mechatronic Industries 6. T – System Verification and Validation (V&V) and integration with RAMS 7. T – The innovation process managed through the MBSE Conclusion: Mini challenge with participants on some current technologic topics

On site

Oral presentation - Team project work development

P.D.2-2 - April

MAY 2nd – 2:30 PM – 5:30 PM (lecture and master class with applications) MAY 5th – 2:30 PM – 5:30 PM (lecture and master class with applications) MAY 12th – 2:30 PM – 5:30 PM (lecture and master class with applications) MAY 19th – 2:30 PM – 5:30 PM (lecture and master class with applications) MAY 26th – 2:30 PM – 5:30 PM (lecture and master class with applications) MAY 31st – 2:30 PM – 5:30 PM (lecture and master class with applications) JUNE 7th – 2:30 PM – 4:30 PM (final working session with students and farewell) The main contents of this course are described in detail by the textbook (available in digital format): E.BRUSA, A.CALA’, D.FERRETTO, "Systems Engineering and Its Application to Industrial Product Development", Springer, Cham, Switzerland, 2018. ISNN: 2148-4182; ISBN-13: 978-3319718361; ISBN-10: 3319718363; DOI:10.1007/978-3-319-71837-8.