Master Électronique, énergie électrique, automatique, Parcours : Analyse et contrôle des systèmes

• Isabelle DEMONGODIN — Responsable)
• Mohamed ZERROUGUI — Co-responsable)

The program is designed to enable future graduates to develop analytical skills and a systemic perspective on challenges in the field of EEA (control, command, prognosis, etc.), based on in-depth knowledge primarily in automation and electrical energy. The goal is to master methodologies for modeling, simulation, diagnostics/prognostics, and control of complex systems. The approaches taught are based on data analysis, continuous dynamic models, or discrete-event systems.

The prerequisites are foundational knowledge in engineering mathematics (linear algebra and calculus), basic concepts in physics (electricity, kinematics, etc.), proficiency in the fundamentals of automation and power electronics, and knowledge of basic electronics (analog, digital, etc.).

The program enables future graduates to acquire skills in EEA systems in preparation for a doctoral thesis on the subject. The training is supported by the LIS laboratory, which, through the "Systems Analysis and Control" team, offers doctoral contract opportunities on the topics covered within the program.

• Understand techniques for controlling complex systems
• Master diagnostic techniques for system failures
• Grasp fault-tolerant control methods
• Acquire in-depth knowledge of automation techniques in electrical engineering
• Understand techniques for modeling, analysis, and diagnostics using artificial neural networks
• Acquire in-depth knowledge of discrete-event formalism

• H1206 Management et ingénierie études, recherche et développement industriel (fr)

• 201N Conception en automatismes et robotique industriels, en informatique industrielle (fr)
• 201S Technologies de commandes des transformations industrielles (production) (fr)
• 201U Technologies de commandes des transformations industrielles : conduite, surveillance de machines (fr)

The professional opportunities offered by the ACS speciality of the Master's in Electrical Engineering, Automation, and Automation Systems (EEEA) are numerous and varied. This research-oriented program primarily prepares students for careers in academic and industrial research. Graduates may pursue a Ph.D. to become researchers or research professors within public or private universities and laboratories. They are also sought after by research institutes, R&D centers, and major companies in the fields of automation, energy, robotics, and embedded systems, where their skills in modeling, control, and optimization of complex systems are essential for developing new technologies. Additionally, some graduates move into roles as research and innovation engineers, systems engineering consultants, or experts in advanced technical project management, contributing to advancements in artificial intelligence, autonomous systems, and smart grids.