| Course label : | |
|---|---|
| Teaching departement : | EEA / Electrotechnics - Electronics - Control Systems |
| Teaching manager : | Mister PHILIPPE PERNOD |
| Education language : | French |
| Potential ects : | 0 |
| Results grid : | |
| Code and label (hp) : | MR_SYSCOM_EEA_ISE - Ingénierie des Syst Electro 2 |
Education team
Teachers : Mister PHILIPPE PERNOD
External contributors (business, research, secondary education): various temporary teachers
Summary
Any system that interacts with the real world includes sensors and/or actuators necessary to acquire a maximum of information about it or to control its evolution. The objective of the module is to acquire a high level of knowledge and innovative methodologies in the development of interactive systems (design and implementation) based on sensors and/or actuators for applications in a variety of fields covering the environment, medical, space and industry. The module offers a broad and diversified training on the physical basis of systems in the fields of measurement, sensors, actuators and related metrological characteristics. In this module, the emphasis will be on the development of a product, starting from a specification, the choice of a technology, and its integration into a complete measurement and control chain. We will focus in particular on the multi-physics aspects of the systems at the design level: analytical and numerical modeling (finite element method) of key elements including actuators and sensors. Design examples in the form of seminars and case studies are fully covered. Module content : - Implementation of a MEMS sensor based on surface acoustic waves devices for measuring physical quantities: Embedded system that can be interrogated remotely. - Implementation of a predictive maintenance system on rotating electrical machines using accelerometer measurements and advanced signal processing. - Implementation of a magnetic actuator for an application in augmented reality. - Implementation of an infrared cam based on a commercial infrared sensor (32 pixels).
Educational goals
Any system that interacts with the real world includes sensors and/or actuators necessary to acquire a maximum of information about it or to control its evolution. The objective of the module is to acquire a high level of knowledge and innovative methodologies in the development of interactive systems (design and implementation) based on sensors and/or actuators for applications in a variety of fields covering the environment, medical, space and industry. The module offers a broad and diversified training on the physical basis of systems in the fields of measurement, sensors, actuators and related metrological characteristics. In this module, the emphasis will be on the development of a product, starting from a specification, the choice of a technology, and its integration into a complete measurement and control chain. We will focus in particular on the multi-physics aspects of the systems at the design level: analytical and numerical modeling (finite element method) of key elements including actuators and sensors. Design examples in the form of seminars and case studies are fully covered. Module content : - Implementation of a MEMS sensor based on surface acoustic waves devices for measuring physical quantities: Embedded system that can be interrogated remotely. - Implementation of a predictive maintenance system on rotating electrical machines using accelerometer measurements and advanced signal processing. - Implementation of a magnetic actuator for an application in augmented reality. - Implementation of an infrared cam based on a commercial infrared sensor (32 pixels).
Sustainable development goals
Knowledge control procedures
Continuous Assessment
Comments: - Note case study (50%)
- Note Mini-Project. : Implementation of an interactive system (50 %)
Online resources
- Course slides - Scientific journals - TP statements - Free access books
Pedagogy
The module is organized in the form of case studies and mini-projects during which the knowledge of the course on active materials and the knowledge of multi-physics modelling (Comsol) will be mobilized. The final objective is to develop an interactive system integrating microsensors and/or microactuators.
Sequencing / learning methods
| Number of hours - Lectures : | 0 |
|---|---|
| Number of hours - Tutorial : | 6 |
| Number of hours - Practical work : | 20 |
| Number of hours - Seminar : | 0 |
| Number of hours - Half-group seminar : | 0 |
| Number of student hours in TEA (Autonomous learning) : | 0 |
| Number of student hours in TNE (Non-supervised activities) : | 0 |
| Number of hours in CB (Fixed exams) : | 0 |
| Number of student hours in PER (Personal work) : | 0 |
| Number of hours - Projects : | 0 |
Prerequisites
Solid state physics, electronics (basics)
Maximum number of registrants
Remarks
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