Number of hours
- Lectures 25.5
- Projects -
- Tutorials 34.5
- Internship -
- Laboratory works 12.0
- Written tests 3.0
ECTS
ECTS 6.0
Goal(s)
This course is an introduction to the design of technological multiengineering systems by combining three body of knowledge: systems engineering, mechanics, and control.
Content(s)
Systems engineering:
- Fundamentals
- Operational analysis
- System specification
- Logic architecture
- Sub-system specification
- Organic architecture
- Model-Based Systems Engineering with SysML modelling language
Mechanics:
- Reading of technical drawings
- Static modelling and analysis
- kinematic modelling and analysis
Control:
- Control diagrams
- Behaviour of simple systems (1st and 2nd order)
- Specification of control performances
- Types of controler
- Setting of a controler
None
Session 1:
- Continuous assessment (50 %)
- Final individual exam (50 %)
Session 2:
- Individual exam (100 %)
Session 1 (S1) :
Les modalités d'évaluation en S1 sont : un contrôle continu et un examen dans chacune des 3 disciplines.
La note finale de l'UE d'IFIS en session 1 est la moyenne de la note finale d'ingénierie système, de la note finale de mécanique et de la note finale d'automatique.
Chacune des trois notes finales (ingénierie système, mécanique, automatique) est la moyenne de la note de contrôle continu et de la note d'examen.
Note finale S1 = moyenne(CC_IS, EX_IS, CC_Méca, EX_Méca, CC_Autom, EX_Autom)
Session 2 (S2) :
Les modalités d'évaluation en S2 sont : un examen dans chacune des 3 disciplines.
La note finale de l'UE d'IFIS en session 2 est la moyenne de la note d'ingénierie système, de la note finale de mécanique et de la note finale d'automatique.
Chacune des trois notes est le maximum de la note finale de la session 1 et la note à l'examen de session 2.
Note finale S2 = moyenne[max_ingénierie_système(S1,S2), max_mécanique(S1,S2), max_automatique(S1,S2)]
Les notes intermédiaires ne sont pas arrondies et la note finale de l'UE IFIS est arrondie à l'entier le plus proche.
The course exists in the following branches:
- Curriculum - Engineer student Bachelor - Semester 5
Course ID : 3GUC1300
Course language(s):
You can find this course among all other courses.
Ingénierie système:
[1] INCOSE Systems Engineering Handbook: A Guide for System Life Cycle Processes and Activities
[2] NASA (2007) NASA Systems Engineering Handbook https://www.nasa.gov/sites/default/files/atoms/files/nasa_systems_engineering_handbook.pdf
[3] Systems Engineering Body of Knowledge https://www.sebokwiki.org/wiki/Guide_to_the_Systems_Engineering_Body_of_Knowledge_(SEBoK)
[4] Micouin (2014) Model Based Systems Engineering: Fundamentals and Methods
[5] Crawley, E. et al. (2015) System Architecture: Strategy and Product Development for Complex Systems
[6] Wasson, C. S. (2015) System Engineering Analysis, Design, and Development: Concepts, Principles, and Practices
Mécanique:
[1] Pommier, S. (2010) Mécanique générale: Cours et exercices corrigés
[2] Palm, W. J. (2013) Systems Dynamics
French State controlled diploma conferring a Master's degree
Common Core presentation
Programme courses S5
Programme courses S6
Supply Chain Management
Programme presentation
Programme courses S7
Programme courses S8
Programme courses S9
Programme courses S10
Product Design
Programme presentation
Programme courses S7
Programme courses S8
Programme courses S9
Programme courses S10
Contacts
Head of studies: Pierre Lemaire
Head of 1st Year Program: Abdourahim Sylla
Head of Supply Chain Management Program: Iragael Joly
Head of Product design Program: Marie-Laure Perenon
Registrar's office
Head of Registrar's office: genie-industriel.scolarite@grenoble-inp.fr
Secretary's office 1st Year: Valérie Demicheli
Secretary's office 2nd Year: Sylvie Malandrino
Secretary's office 3rd Year: Vincente Odier
International relations department:
Nadia Dehemchi