Scientific majors
First year scientific majors (MSc) :
| Code | Course title | Professor in charge |
|---|---|---|
| SIM | Mathematical Modelling of Engineering Systems | Frédéric JEAN |
| SIM/Meca | Simulation and Engineering Mathematics | Frédéric JEAN |
| SIM/SI | Mathematical Modelling of Engineering Systems | Frédéric JEAN |
| SIS/Emb | Computer Science, Signals, and Embedded Systems | Thierry BERNARD |
| SIS/Meca | Computer Science, Signals, and Mechatronical Systems | Thierry BERNARD |
| SIS/TIC | Computer Science, Signals and Systems / Information Technologies | Thierry BERNARD |
| SMC/S1 | ||
| SMC/S2 |
SIM - Mathematical Modelling of Engineering Systems
| The Mathematical Engineering Transitional Core covers mathematical tools and numerical methods for modelling, simulation and decision making. During these courses, applications of very diverse nature will be studied, but the focus will remain on underlying mathematical models and structures, as well as on numerical methods of resolution. This pathway is initially intended for those interested in the specialisms of mathematical engineering - automatic control theory, optimisation, operational research and modelling - or in specific applications, such as finance or cryptography. The purpose of it is also to give a general engineering background, without regard to any particular specialism, but providing technical skills in resolution methods and decision-making tools. | Professor
in charge Courses of the module |
SIM/Meca - Simulation and Engineering Mathematics
| The Mathematical Engineering Transitional Core covers mathematical tools and numerical methods for modelling, simulation and decision making. During these courses, applications of very diverse nature will be studied, but the focus will remain on underlying mathematical models and structures, as well as on numerical methods of resolution. This pathway is initially intended for those interested in the specialisms of mathematical engineering - automatic control theory, optimisation, operational research and modelling - or in specific applications, such as finance or cryptography. The purpose of it is also to give a general engineering background, without regard to any particular specialism, but providing technical skills in resolution methods and decision-making tools. | Professor
in charge Courses of the module |
SIM/SI - Mathematical Modelling of Engineering Systems
| The Mathematical Engineering Transitional Core covers mathematical tools and numerical methods for modelling, simulation and decision making. During these courses, applications of very diverse nature will be studied, but the focus will remain on underlying mathematical models and structures, as well as on numerical methods of resolution. This pathway is initially intended for those interested in the specialisms of mathematical engineering - automatic control theory, optimisation, operational research and modelling - or in specific applications, such as finance or cryptography. The purpose of it is also to give a general engineering background, without regard to any particular specialism, but providing technical skills in resolution methods and decision-making tools. | Professor
in charge Courses of the module |
SIS/Emb - Computer Science, Signals, and Embedded Systems
| The computer Science, sIgnals and Systems (SIS) transitional core is a 168-hour educational program in information science and technology. It is organized with respect to its application within different types of systems. Thus it comes in 2 options : SIS1 and SIS2. The SIS1 option is mostly concerned with the so-called information systems, now at the heart of business, and with communication systems, whose societal and economical impact has become major. The SIS2 option is rather concerned with digital systems coupled to the physical world through sensors and actuators, ranging from industrial equipments to robots. One half of the program is common to SIS1 and SIS2, mostly dealing with computer science. This first half presents programming paradigms and methodologies, that ease software design and maintenance, relying on the C++ and Java languages, data networks, as pervasing computing becomes reality, and computer architecture, with embedded system design in perspective. For the SIS2 option, the second half addresses the perception-action loop found in robotic systems. Whereas signal interpretation and decision making are presented within the frame of pattern recognition, most of the program is devoted to control theory, with concrete application to electro-mechanical systems. For the SIS1 option, the second half deals with data and system organization through courses in databases, and combinatorial optimization. It also deals with signal processing for telecommunication that aims at optimal transmission and reception of information signals in noisy environments. | Professor
in charge Courses of the module |
SIS/Meca - Computer Science, Signals, and Mechatronical Systems
| A mechatronical system gathers mechanical, electrotechnical (motors), power electronics, digital hardware, software and algorithmic components which operate together. Such systems are typical of the transport industry: aeronautics (e.g. A380 braking system) or the car industry (e.g. Electronic Stabilization Program). They are also found in many other areas : camera autofocus, hard disks, wind turbines, smart prosthetics, assisted surgery. Each element of the system contributes, by itself and by its interaction with the others, to the overall performances. The SIS/Meca transitional core is a 168-hour educational program including courses on solid mechanics (structure and dynamics), signal processing, microprocessor architecture (embedded processor), computer science (dependable software) and control theory, with particular attention to their interaction. | Professor
in charge Courses of the module |
SIS/TIC - Computer Science, Signals and Systems / Information Technologies
| The computer Science, sIgnals and Systems (SIS) transitional core is a 168-hour educational program in information science and technology. It is organized with respect to its application within different types of systems. Thus it comes in 2 options : SIS1 and SIS2. The SIS1 option is mostly concerned with the so-called information systems, now at the heart of business, and with communication systems, whose societal and economical impact has become major. The SIS2 option is rather concerned with digital systems coupled to the physical world through sensors and actuators, ranging from industrial equipments to robots. One half of the program is common to SIS1 and SIS2, mostly dealing with computer science. This first half presents programming paradigms and methodologies, that ease software design and maintenance, relying on the C++ and Java languages, data networks, as pervasing computing becomes reality, and computer architecture, with embedded system design in perspective. For the SIS1 option, the second half deals with data and system organization through courses in databases, and combinatorial optimization. It also deals with signal processing for telecommunication that aims at optimal transmission and reception of information signals in noisy environments. For the SIS2 option, the second half addresses the perception-action loop found in robotic systems. Whereas signal interpretation and decision making are presented within the frame of pattern recognition, most of the program is devoted to control theory, with concrete application to electro-mechanical systems. | Professor
in charge Courses of the module |
SMC/S1 -
Retour en hautSMC/S2 -
Professor
in charge Courses of the module |
