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Aerospace Education Catalogue

Cursus Master Ingénierie - Aéronautique, Transports et Énergétique (CMI-ATE)

  • Organisation: UFR SITEC (Systèmes Industriels et Techniques de Communication) - Ville d'Avray
    (Université Paris Nanterre (Paris-X))
  • Type of Course: Initial education - Sandwich/Apprenticeship training
  • Language(s): French
  • Place: Ville d'Avray Site - Paris Nanterre University (French Regions: Ile-de-France)
  • Prepared diploma/grade/title: Master or DNM: French National Master Degree
  • Level of entry: French Baccalaureat + 0
  • VAE (Validation of Acquired Experiences): No
  • This training is included in RNCPRS

Course Details

Objectives: The CMI-ATE at Université Paris Nanterre aims to train engineers specialising in the fields of aeronautics, transport and energy, with a broad spectrum of knowledge ranging from physics and electronics to mechanics and energy.
The first two years of the SPI bachelor's degree (L1, L2) enable students to acquire a common base of knowledge in engineering sciences (physics and fundamental mathematics, electronics, mechanics, energetics and computer science). The third year (L3) focuses on the knowledge needed to specialise in a Master's degree, with a choice of 3 courses: energetics, mechanics and electronics. The CMI-ATE specialises in either 'Testing, Diagnostics and Optimisation', 'Composite Structures Calculation' or 'Embedded Electronics and Communication Systems' for the aerospace and transport industries. English is taught throughout the programme, and students are expected to be sufficiently independent to work in an English-speaking environment by the end of the CMI. Finally, general courses in the human and social sciences and specialisations in aeronautics will enable students to acquire the general knowledge needed for the creativity that is essential for innovation, communication and the presentation of large-scale projects, particularly in the field of new media such as 3D immersion and virtual reality. Knowing how to use these technologies, which are now commercially available, is a major asset for future expert engineers.

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

Prerequisites: You must have studied physics or engineering sciences and mathematics up to the final year of secondary education.

Acquired skills during the training : - Acquire skills and know-how in the field of modelling in electromagnetism, mechanics or energy, depending on the speciality chosen
- Acquire skills and know-how in optimising the correct use of materials in mechanics and energetics
- Acquire skills and know-how in radiocommunications and on-board electronics for electronics
- Acquire cross-disciplinary skills to support design and production functions (supply chain, management, etc.)
- Acquire communication skills using new digital writing techniques
- Acquire general culture skills: History of science to understand the evolution of technologies.

Duration and terms: The CMI is a 5-year course after the baccalauréat(High School Diploma) and 2 diplomas are awarded: the licence degree at the end of the 3rd year and the master degree at the end of the 5th year.

Dedicated web site: https://ufr-sitec.parisnanterre.fr/cursus-master-ingenierie-aeronautique-transports-et-energetique

Disciplines

  • Engineering Sciences

Topics

  • 3 - Mechanical and Materials Engineering: Solid Mechanics, Structural Dynamics, Composites, Metallurgy, Forming, Additive Manufacturing, Metamaterials, Processes, Plastics, Chemistry, Polymers, Surface Treatment, etc.
  • 4 - Thermodynamics, Propulsion, Energy: Thermal Machines, Thermal Transfer and Control, Cryogenics, Pyrotechnics, Engines, Green Fuels/SAF, Hydrogen, Renewable Energies...
  • 7 - Embedded/Cyberphysical Systems: Embedded Networks, Real Time Systems, Formal Methods, Embedded Software, Avionics, Instrumentation...
  • 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...
  • 14 - Aeronautical and Space Vehicles: Aircraft, Balloons, Drones, Launch vehicles, Satellites, Cubsats, High Altitude Platforms, Landers, Rovers, Manned Flights, 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.