From Robotics, Data science and Healthcare technologies
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| | <slideshow sequence="random" transition="fade" refresh="3000" center="true"> | | <slideshow sequence="random" transition="fade" refresh="3000" center="true"> |
| | <div>[[Image:Im1.jpg.jpg|right|400px|Caption 1|link=Medical Robotics and Interventional Imaging]]</div> | | <div>[[Image:Im1.jpg.jpg|right|400px|Caption 1|link=Medical Robotics and Interventional Imaging]]</div> |
| − | <div>[[Image:Im2bis.jpg.jpg|right|400px|Caption 2|link=Medical Robotics and Interventional Imaging]]</div> | + | <div>[[Image:Im2.jpg.jpg|right|400px|Caption 2|link=Medical Robotics and Interventional Imaging]]</div> |
| | <div>[[Image:Im3.jpg.jpg|right|400px|Caption 2|link=Learning, Modelling and Data Science]]</div> | | <div>[[Image:Im3.jpg.jpg|right|400px|Caption 2|link=Learning, Modelling and Data Science]]</div> |
| | <div>[[Image:Im4_t3.jpg|right|300px|Climatology Drone|link=Complex Systems and Parsimony]]</div> | | <div>[[Image:Im4_t3.jpg|right|300px|Climatology Drone|link=Complex Systems and Parsimony]]</div> |
Revision as of 14:40, 19 October 2022
The three scientific themes of the team highlight its interdisciplinarity, and allow reflecting the variety of disciplines that interact within the team. It emphasizes research recognized at the best international level, in particular in medical robotics and data science for health:
- Medical Robotics and Interventional Imaging gathers the historical activities of the team in the field of robotic assistance to minimally invasive medical and surgical procedures, and, beyond, around methodological and clinical developments in interventional radiology.
- Learning, Modelling and Data Science gathers the activities of the team around artificial intelligence (AI), biomechanical simulation and measurement and evaluation methods, pursued both independently and in synergy, as simulation can be used to generate data for learning.
- Complex systems and parsimony gathers activities around the control of complex systems, with an evolution over the period aiming at taking into account parsimony as an issue for the control but also for the mechatronics design of robots.
