| Course label : | Wave imaging |
|---|---|
| Teaching departement : | CMA / |
| Teaching manager : | Mister PHILIPPE PERNOD |
| Education language : | French |
| Potential ects : | 4 |
| Results grid : | |
| Code and label (hp) : | G1G2_ED_CMA_ION - Imagerie ondulatoire |
Education team
Teachers : Mister PHILIPPE PERNOD / Mister BAPTISTE MATHMANN / Mister MARC GOUEYGOU / Mister OLIVIER BOU MATAR-LACAZE / Mister RUDY BAHOUTH / Mister YANNICK DUSCH
External contributors (business, research, secondary education): various temporary teachers
Summary
The objective of the elective is to enable people to imagine and design an imaging or remote sensing system that meets specifications regardless of the field of application. On the basis of a need expressed by an image resolution and a depth of investigation in a given environment (human body, subsoil, submarine, airspace), the goal is to know how to choose the type physical effect to be used, and the image formation technique to be exploited to respond to the problem, deduce the block diagram of the imaging system and the associated treatments, understand and define the key technologies necessary for its realization. The teaching will thus address modern techniques of ultrasound ultrasound, sonar, seismic imaging, seabed imaging, X-ray tomography (scanner), MRI, radar, nuclear imaging, etc. . Particular emphasis will also be placed on the key technologies underlying the production of imaging systems, and also on the most recent techniques using nonlinear phenomena, or agents of contrasts, near-field imaging, multimodal imaging, quantitative imaging, even theranostics
Educational goals
At the end of the course, the student will be able to: - Make the choice of an appropriate type of wave and design an imaging system from an expression of need with specifications - Formalize, model and simulate wave propagation in complex media and the resulting imaging system - Understand the operation of the most modern imaging techniques, and the perspectives of the field Contribution of the course to the skills framework; by the end of the course, the student will have progressed in: - Ability to extend a tool or a concept to other uses (1.1) - Ability to mobilize a scientific / technical culture (transdisciplinarity and / or specialization) (1.6) - Ability to understand and formulate the problem (hypotheses, orders of magnitude, etc.) (2.1) - Ability to use concepts or principles in event descriptions (2.2) - Ability to recognize the specific elements of a problem (2.3) - Ability to identify interactions between elements (2.4) - Ability to converge towards an acceptable solution (monitoring assumptions, orders of magnitude, etc.) (2.7) - Ability to understand and communicate in a foreign language (3.7).
Sustainable development goals
Knowledge control procedures
Continuous Assessment
Comments:
- Case practical work reports, study reports and bibliographic studies 50%
- Continuous assessment in the form of a quiz and final exam 50%
Online resources
- Course materials, exercises; - Links to courses / illustrations in the form of online videos; - Scientific databases (WOS, direct sciences, IEEE, etc.) - Verasonics ultrasound machine; - Matlab software, Comsol Multi-physics; - Practical work rooms;
Pedagogy
The teaching will alternate lectures, exercises, simulation sessions for the analysis of an expression of need and the search for a solution, modeling / simulation sessions, demonstrations on real equipment (example ultrasonic ultrasound). The working environment will be based on the use of Matlab, Comsol Multi-physics, the resources of the Verasonics ultrasound system and on the use of rooms C-204, C-206.
Sequencing / learning methods
| Number of hours - Lectures : | 0 |
|---|---|
| Number of hours - Tutorial : | 0 |
| Number of hours - Practical work : | 0 |
| Number of hours - Seminar : | 16 |
| Number of hours - Half-group seminar : | 0 |
| Number of student hours in TEA (Autonomous learning) : | 24 |
| 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
S5b Modern Physics Course + Prep Program in the following areas: - Electromagnetism - Maxwell's equations - Wave physics
Maximum number of registrants
64
Remarks
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