Aerospace Education Catalogue

Master Industrie Aéronautique, Navigabilité

• Organisations :
  • UFR Sciences et Technologies Université d'Evry
    (Université d'Evry Val d'Essonne)
  • Université Paris-Saclay
    (Université Paris-Saclay)
• Type of Course: Initial education - Life-long learning
• Language(s): French
• Place: iversité d'Evry-Paris_Saclay (French Regions: Ile-de-France)
• Prepared diploma/grade/title: Master or DNM: French National Master Degree
• Level of entry: French Baccalaureat + 3
• VAE (Validation of Acquired Experiences): Yes
• This training is included in RNCP / RS
• This training is Eligible for CPF

Course Details

Objectives: The objective of the “Aeronautics Industry, Airworthiness” course is to master the scientific and technical tools necessary for the management and optimization of means and processes in aeronautical maintenance and production activities, the cornerstone of aviation safety. The challenge is all the more important as the most modern aircraft use innovative technologies for which diagnostic and repair procedures have yet to be invented. The training is backed by the IBISC and LMEE laboratories associated with the UFR Sciences and Technologies of the UEVE. The teaching team carries out its research on the problems of air or road transport and on launchers, in the following disciplines: optimization, modeling and simulation, mechanics and energy. The training is certified by the ASTech Competitiveness Cluster.

Intended for: Students with a prerequisite in aeronautics and wishing to acquire multidisciplinary scientific and technological skills (production organization, risk management, logistics, mechanics and materials).

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

Prerequisites: Basic knowledge in aeronautics (the BIA or PPL would be a definite plus), design, production.

Admission requirements: holders of a Bac+3 diploma directly or indirectly related to aeronautics ((Aeronautical maintenance, mechanical engineering, production engineering, electrical engineering, industrial maintenance, etc.)

Acquired skills during the training : The training deepens the disciplines essential to the planning of work and the optimization of resources, with constraints of safety, reliability and availability of the products maintained. The scientific skills acquired make it possible to model processes and systems by understanding technologies specific to aeronautics and space (for example: propulsion and structure, composite materials, maintenance regulations and airworthiness management).
The training insists on their implementation in compliance with the regulations, standards and methodologies of the field (EASA parts 21, M and 145 and MSG-3), as well as on aspects related to human factors and the safety of men, machines. and systems. The practice of English is an important part of it.

Targeted careers : Students can join the study and research and office-methods departments in companies that design and develop maintenance and repair processes, or carry out aircraft maintenance operations and airworthiness monitoring: large groups, SMEs/SMIs and TPEs. Industrial opportunities mainly concern the aeronautics and space sector, more generally that of transport. They can also join research laboratories as doctoral students and prepare a thesis in the field of Industrial Engineering. Among the major companies or establishments recruiting in the field, let us mention: Safran (Nacelles, Hispano-Suiza, Sagem), Thalès, Dassault Systèmes, Dassault Aviation, Air France Industries, Corsair international, etc.

Duration and terms: two-year master's degree

Dedicated web site: https://www.universite-paris-saclay.fr/ingenierie-des-systemes-complexes/m2-industrie-aeronautique-navigabilite

Disciplines

• Engineering Sciences
• Applications, Operations
• System Engineering, Programme Management, Production

Topics

• 4 - Thermal engineering, Energetics
• 11 - Computer Science, Applied Mathematics, Modelling, Optimisation, Digital and Data Sciences, Big Data, Cryptography, Cybersecurity, Artificial Intelligence
• 14 - Transports, Intelligent Transportations Systems (ITS), Mobility, Vehicles, Unmanned Aerial Vehicles (UAV)
• 16 - System Engineering, Product Assurance and Safety, Qualification/Testing, Validation & Verification, Metrology, Certification
• 17 - Project Management, Production, Industrialization, Factory of the Future, Integration, Supply Chain, Maintenance, Recycling
• 18 - Human Factors, Human Machine Interfaces, Operations, Exploitation, Air Traffic Management
• 19 - Law and Business Engineering: Law, Regulations, Standards, Management, Finance, Marketing, Accounting, Purchasing, Contracts, Intellectual Property, etc.