Large System Dominant in Interactions

This specialization trains engineers with a global view of the problems induced by complex dynamic systems with a specific focus on the methodologies allowing their management. It develops aspects related to the modeling, identification, estimation, optimization, design and integration of efficient and robust control laws adapted to the technical, economic, human requirements, and to the complexity and heterogeneity of the systems, as well as aspects related to the diagnosis, operational safety and reconfiguration of these systems.

This specialization provides training in Design Sciences, an important scientific foundation of Engineering Sciences, which allows students to approach the design of any system. The objective is to train students in the approaches, methods, and tools of system design used from the definition of development strategy to the prototyping and industrialization phase, while ensuring the satisfaction of customer needs and/or potential uses.

Design, plan, manage and improve the performance of Production, Logistics, Services and Supply Chain Systems, with the aim of satisfying an objective customer service rate while minimizing the overall cost of operations and optimizing profitability, while respecting sustainable development.

This specialization is based on two major disciplines: operational research and risk management. Its objective is to train engineers capable of optimizing decisions under uncertainties (risks of failure, hazards) in order to design and operate reliable and resilient industrial systems. The training leverages the most operational aspects of mathematics and computer science to apply them to the management of socio-technical and environmental risks. It is in direct contact with industry to maintain competitiveness, safety, resilience, and sovereignty.