Master of Science in Aeronautical and Space Systems

Commentaire sur Master of Science in Aeronautical and Space Systems - Présentiel - Toulouse - Haute-Garonne

• Objectifs
  To support its steadily growing and to maintain business competitiveness, the global aerospace industry needs high qualified engineers or researchers to innovate to new technologies taking into account environmental constraints more and more demanding. Design complex aerospace systems involve multinational geographically disseminated teams of project managers or various experts working in collaborative environment through integrated development platform tools. The Master Aeronautical and Space Systems (AESS) is an evolution of the former MSc Aeronautical Engineering and Space Technology and is intended to educate graduate students in subjects relevant to these demanding challenges and needs of the industry. The MSc ASSE is designed to be multidisciplinary preparing future engineers to easily and efficiently work on aeronautical systems, space systems and their applications or embedded systems, with emphasis on the complete life cycle of the system. With a large spectrum of knowledge the MSc AESS allows students to tackle various aspects from design to operations of systems either in a research organism or in an aerospace company in a multinational environment. The MSc AESS consists of a total of 4 semesters of 30 ECTS each, ie 120 ECTS credits for the whole program. The MSc AESS starts with a first semester emphasizing aerospace engineering fundamentals, and then continues toward two main majors during semester two: «Electronics and computer sciences», «Aircraft control - Guidance». During semester three students emphasize on one major in depth among four: major Aircraft systems, major Embedded Systems, major GNSS, major space systems. Students have strong opportunities to develop practical skills through personal research projects in ISAE’s laboratories and professional thesis during internships in aerospace industry.
• Contenu
  Semester 1
  
  Common part
  Mathematics - Foreign languages - Matlab
  standardisation - MATLAB complements -
  Programming - Mechanics
  
  Aerospace engineering
  Sensors and measuring systems - Aircraft and
  airframe architecture - Flight Dynamics - Automatic
  control - Design and validation of DES - Signal
  processing and DSP - Introduction to mathematical
  logic - Architecture and design of integrated
  electronics function - Launcher and space vehicles -
  Aeronautical Thermopropulsion - Engines-Propulsion
  - Data transmission - Avionics systems
  
  Semester 2
  
  Common part
  Foreign languages - European cultures and Research
  Project in ISAE’s laboratories (250 h)
  Students have to select one major among:
  
  Major 1: Electronics and computer sciences
  Modelling and simulation - Antenna and radars
  - Hardware and software co-design - Distributed
  and parallel computing - Network architecture and
  programming
  
  Major 2: Aircraft control - Guidance
  Control implementation – Flight characteristics-
  Aircraft control - guidance – Navigation
  
  Semester 3
  
  Common part
  Foreign languages – Research Project in ISAE’s laboratories
  Students have to select one major among:
  
  Major 1: Aircraft Systems
  Computer Safety - Hybrid Systems- System
  Engineering- System Dependability- Optimization
  Converters- Hydraulic, Electromechanical and EHA
  actuators- Actuators control- Electromagnetic
  compatibility
  - Airframe-linked systems- Avionics systems- Safety
  analysis- Avionics and systems trouble shooting
  maintenance
  
  Major 2: Space Systems
  Avanced control and applications - Satellites guidance
  and control - Launchers guidance and control - Space
  environment and effects - Mission analysis and
  orbital mechanics - Space communications systems -
  Space project and systems - Satellite electrical
  systems - Satellite engineering and design - Satellite
  thermal control systems - On board systems and data
  handling - Space projects economy - Space projects
  legal aspects
  
  Major 3: Embedded Systems
  Real time language - Architecture description
  language - Real time operational systems - Real time
  control of a space system - Certification - Computer
  Safety - Hybrid Systems - System Engineering - System
  Dependability - Optimization - Electromagnetic
  compatibility - Estimation and Kalman filter -
  Energetic constraints - Avionics and data buses
  
  Major 4: Global Navigation Satellite Systems (GNSS)
  Digital communications - Spread spectrum techniques
  - Orbits and satellites plateforms - Radiofrequency
  links and propagation - Computer Safety - Hybrid
  Systems - System Engineering - System Dependability
  - Optimization - Estimation and Kalman filter -
  Positionning determination and reference systems
  - Navigation and localization systems by satellite
  - Communication and navigation satellite payload -
  GNSS systems
  Application of GNSS - Navigation digital receivers -
  GNSS receivers - Legal and economic aspects
  
  Common part: Seminars and conferences
  Seminar «Vehicle design: system aspects of
  atmosphere re-entry»
  «Electrical propulsion» conference
  «Space mechanisms» conference
  «History of Space Exploration» conference
  
  Semester 4
  
  Students conduct a thesis in aeronautical industry or
  organisation, in France or abroad and supervised by a
  tutor from the host organisation and from ISAE. The
  Master thesis is concluded by the preparation of a
  report and an oral dissertation in front of jury.
  European master - EuMAS in aeronautics and
  space.
  
  

Autre formation en rapport avec ingénierie systèmes