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Space Education Catalogue

Formation Ingénieur généraliste ISAE-SUPAERO

• Organisation : ISAE-SUPAERO
• Way of training : Initial education
• Language(s): French
• Place: Toulouse ISAE-SUPAERO (French Regions: Occitanie)
• Prepared diploma/grade/title: Diplôme d’ingénieur (French national engineering degree)
• 1st required level : French baccalauréat + 2
• This training is included in RNCP / RS

Course Details

Objectives : ISAE-SUPAERO generalist engineers are:
• designers of the systems of the future, multidisciplinary, focused on the issues, disciplines, and challenges of the aerospace field,
• directly employable, capable of becoming recognized technical experts, managers, or researchers,
• specialists in the approaches and methods of designing complex and critical systems that can be applied to a very wide range of applications,
• potential managers of large industrial projects in a multicultural international environment,
• engineers with innovative, management, and leadership skills, adaptability, performance, and a global perspective, integrating the challenges of the environmental and societal transition.

Public concerned : Students

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

Admission requirements : In the first year:
• Students from preparatory classes for the Grandes Écoles (Mines-Ponts competitive entrance exam) – CPGE MP, PSI, PC, MPI, PT, TSI
• Admission based on academic qualifications for holders of a Bachelor's degree (3rd year) or equivalent (GEI-UNIV)
• Students from the INP preparatory program

In the second year:
• Admission based on academic qualifications for holders of a Master's degree (1st year) or equivalent (GEI-UNIV)
• Engineers specializing in armament studies and techniques (IETA – automatic admission) or military officers (based on competitive exams)
• Students from partner institutions abroad

In the third year:
• Polytechnique application school for Polytechnique students (civilians admitted based on academic qualifications and armament engineers admitted automatically)
• Admission through an exchange program: French or international students as substitutes within the framework of the school's partnership agreements

Acquired skills during the training : Engineers are capable of:
• mastering the resolution of complex scientific and technological problems;
• combining a detailed approach with a systems approach to ensure interoperability at the micro and macro levels;
• managing multidisciplinary projects with a national and/or international scope;
• imagining and implementing innovative solutions based on state-of-the-art knowledge;
• contributing to the continuous improvement of systems and processes through critical analysis of existing solutions;
• integrating into and leading multicultural teams;
• contributing to corporate social responsibility by addressing environmental and societal challenges;
• building their career path by assessing their skills and interests.

Targeted careers : ISAE-SUPAERO's certified engineers are generalists with a strong background in the aerospace industry. However, their acquired skills allow them to work in other sectors such as transportation, energy, services, etc., as well as applied research.

Duration and terms : 3-year course

Dedicated web site : https://www.isae-supaero.fr/offre-de-formations/ingenieur-generaliste-isae-supaero/#onglet-lessentiel

Disciplines

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

Topics

• 1 - Environment and Physical Measurement: Radiation, Particles, Solar Wind, Debris, Mechanical and Thermal environment, Aerology, Meteorology, Climate, Environmental Measurements and Analysis, Physico-chemical Analysis, Sensors, Metrology, Vacuum Techniques, etc.
• 2 - Dynamics and Kinematics: Reference Systems, Flight Mechanics, Trajectography, Space Dynamics, Perturbations, Orbit Restitution, Attitude and Orbit Control, Rendezvous, Formation Flying, Constellations, Interplanetary Trajectories, etc.
• 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...
• 5 - Fluid Physics: Fluids, Aerodynamics, Aerothermodynamics, Acoustics, Hydraulics...
• 6 - Electrical Engineering: Generation and Storage of Electrical Energy, Conversion, Regulation, Power Electronics, Actuators, Electric Propulsion, Microsystems, Mechatronics...
• 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...
• 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.
• 12 - Information and Communications Technologies: Telecommunications, Modulation/Coding, Software Defined Radio (SDR), Multimedia, Networks and Protocols, Internet, IoT/Connected Objects, Cybersecurity, Blockchain, Information Systems, Teleservices,....
• 13 - Localization, Positioning, Mobility: Navigation, Guidance, Radiofrequency Aids (ILS, VOR, etc.), GNSS, Location Based Services (LBS), Mobility, Intelligent Transportation Systems (ITS), Transportation, etc.
• 14 - Aeronautical and Space Vehicles: Aircraft, Balloons, Drones, Launch vehicles, Satellites, Cubsats, High Altitude Platforms, Landers, Rovers, Manned Flights, etc.
• 15 - Earth Observation: Remote Sensing, Detectors, Radar, Synthetic Aperture, Lidar, Geographic Information Systems (GIS), Distribution/Dissemination, Geomatics...
• 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.
• 18 - Aerospace Systems Infrastructure and Operations: Airport Platforms, Launch Bases, Control and Mission Centers, Air and Space Traffic Management, In-Orbit Services, Operations, Planning, Man-Machine Interfaces, Human Factors, etc.
• 19 - Business Engineering and Legal Issues: Laws and treaties, Space law, Regulations, Standards, Business Management, Finance, Managerial Monitoring, Costs, Purchasing, Macro and Micro Economics, Marketing, Contracts, Intellectual Property
• 20 - Health and Society: Health, Aerospace Medicine, Biomedical, Life Sciences, Biological Engineering, Political Sciences, Ethics, Defense, Culture, Tourism...
• 21 - Resource and Risk Management: Protection of Natural Resources and Environment, Land Use Planning, Biodiversity, Risks, Safety of Property and People, Space Surveillance and Situational Awareness, etc.
• 22 - Space and Earth Sciences: Exploration of the Universe, Astronomy, Radio Astronomy, Astrophysics, Space Resources, Planetology, Oceanography, Geodesy, Geophysics...