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GRADUATE STUDIES
- • STUDYING AT MANUTECH SLEIGHT
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MSc in Optics, Image, Vision, Multimedia (OIVM)
- PSRS - Photonics for Security, Reliability and Safety
- RADMEP - Radiation and its Effects on MicroElectronics and Photonics Technologies
- COSI - Computational Colour and Spectral Imaging
- IMLEX - Imaging & Light in Extended Reality
- AIMA - Advanced Imaging & Material Appearance
- PE - Photonics Engineering
- MSc in Computer Science
- MSc in Health Engineering
- Engineering schools' research tracks
- Doctoral studies
- Training through research
- Opportunities
- Admission and aid
- OPTICA student chapter
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RESEARCH & INNOVATION
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SCIENTIFIC EVENTS
- CAMPUS LIFE
- ABOUT US
- NEWSLETTER
The MSc in Optics, Image, Vision, Multimedia (OIVM) is a unique master programme offering six specialisation tracks including four Erasmus Mundus Joint Master Degrees – EMJMD.
This master program intends to shape the future industrial and academic experts in optics, photonics, surface engineering, image, material appearance, imaging technologies, spectral imaging, security, reliability, safety and radiation effects. The entire master curriculum is strongly related to the research activities of the Hubert Curien Laboratory, which involves about 250 people in the fields of optics, photonics, microwave, laser processing, image processing, machine learning, data science and security.
The master OIVM is co-accredited by Jean Monnet University, Institut d'Optique Graduate School, Ecole Centrale de Lyon and Ecole des Mines of Saint-Etienne.
PSRS - Photonics for Security, Reliability and Safety (EMJMD)
The Master track PSRS trains the next generation of highly-skilled experts in advanced imaging technologies, cutting-edge image processing, computational imaging, artificial intelligence technologies, biometrics, pattern recognition, photonic-based sensors, micro-nano-technologies, laser processing and surface functionalization to address the current and future societal challenges related to security and safety of people, goods and environment.
RADMEP - Radiation and its Effects on Micro Electronics and Photonics Technologies (EMJMD)
The Master track RADMEP provides a multidisciplinary and innovative programme covering the interactions between radiation and microelectronics and photonics, two Key Enabling Technologies for the future of Europe.
Discover RADMEP
Discover RADMEP
COSI - Computational Colour and Spectral Imaging (EMJMD)
The Master track COSI specialises in the fields of colour and spectral imaging combined with advanced data science.
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Discover COSI
IMLEX - Imaging and Light in Extended Reality (EMJMD)
IMLEX's multidisciplinary programme brings together image conversion, lighting and computer science. Its objective is to train experts who, in addition to a solid theoretical understanding of virtual reality, will also possess strong practical skills in virtual reality applications.
Discover IMLEX
Discover IMLEX
AIMA - Advanced Imaging and Materials Appearance: Metrology and modelling
The Master track AIMA is focused on imaging. This program offers knowledge and skills to start a career as engineer or researcher in this fields of image formation and analysis, imaging technologies, digital image processing, material appearance.
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Discover AIMA
PE - Photonics Engineering
The Master track Photonics Engineering offers the full set of academic courses and teaches a knowledge-based approach in the field of surface and interface science. It combines a knowledge-based approach with a practical one.
Discover Photonics Engineering
Discover Photonics Engineering
MASTER'S COORDINATOR
Nathalie Destouches has been a Professor at Jean Monnet University since 2002 and leads the "Nanoparticules" team at Hubert Curien Laboratory.
Her multidisciplinary research focuses on nanostructured plasmonic materials and exploits their properties at the nanoscale to provide materials and devices with innovative optical functions.
Her multidisciplinary research focuses on nanostructured plasmonic materials and exploits their properties at the nanoscale to provide materials and devices with innovative optical functions.