Gifas Issat.com
Aerospace Education Catalogue

Master Ingénierie des systèmes complexes - parcours Méthodes d'Industrialisation

  • Organisation: SUPMICROTECH
  • Type of Course: Initial education
  • Language(s): French
  • Place: Besançon (25) (French Regions: Bourgogne-Franche-Comté)
  • Prepared diploma/grade/title: Grade of Master (official recognition of 7 level degree)
  • Level of entry: French Baccalaureat + 3
  • This training is included in RNCPRS

Course Details

Objectives: M1 Systems Engineering:
MICROTECHNICS / MECHANICAL MANUFACTURING: 120 HOURS
AUTOMATIC / COMPUTER: 120 H
MATERIAL SCIENCES / MATHEMATICS / OPTICS: 78 HOURS
MECHANICAL DESIGN: 60 H
LANGUAGES: 60H
HUMAN AND SOCIAL SCIENCES: 30 HOURS

M2 Industrialization methods course:
In the context of the globalization of markets with all that this implies (outsourcing, customer satisfaction, environmental constraints, innovation), it becomes necessary to have solid knowledge of manufacturing processes and to be able to take them into account as soon as the design, in order to be able to carry out reliable expertise: choose the most suitable materials, optimize the design, evaluate the subcontracting, design and optimize the manufacturing and control processes.

Degree Level (EU) : 7 - (EQC level or equivalent)

Dedicated web site: https://www.supmicrotech.fr/fr/organisation-et-contenu-apres-un-master-1

Disciplines

  • Engineering Sciences
  • System Engineering, Programme Management, Production

Topics

  • 3 - Mechanical and Materials Engineering: Solid Mechanics, Structural Dynamics, Composites, Metallurgy, Forming, Additive Manufacturing, Metamaterials, Processes, Plastics, Chemistry, Polymers, Surface Treatment, etc.
  • 8 - Electronics Systems : Analog and digital functions, Components, Microelectronics, Integrated Circuits, Samplers, ASIC/FPGA, Digital Signal Processors, Nanotechnologies
  • 9 - Microwave and Photonics: Radiofrequency Functions, Propagation, Antennas, MIMO, Metasurfaces, Terrahertz, Optics, Optoelectronics, Laser, Photonic Circuits, Plasmonics, Quantum Technologies...
  • 10 - Control Systems and Robotics: Linear systems, Identification, Optimization, Command and Control, Filtering, Non-linear Systems, Autonomous systems...
  • 11 - Data Sciences: Applied Mathematics, Signal and Image Processing, Cryptography, Artificial Intelligence (machine learning, big data, etc.), Computer Science, Cloud, Software Engineering, Virtual Reality, Virtualization, Digital Twins, Metaverse, etc.
  • 16 - Systems Engineering and Innovation: Modeling, Simulation, MBSE (model based system engineering), Operational Safety, Quality, Product Assurance, Qualification, Validation and Verification, Certification, Management of Innovation, Analysis and Creation of Value, New Space…
  • 17 - Programme and Production Management: Project Management, Lean, Industrialization, Life Cycle, Ecodesign, Supply Chain, Assembly Line, Digital Transformation, Factory of the Future, Integration, Maintenance, Recycling, etc.