News
Members
Publications
Software / Data
Job offers
Images / Videos
Collaborations
Conferences
Lab meetings: "Les partages de midi"
Practical information
Members Area
Next conferences we are in …
This shows you the differences between two versions of the page.
Both sides previous revision Previous revision Next revision | Previous revision | ||
activities [2020/12/10 13:06] janin |
activities [2021/01/21 15:49] (current) janin |
||
---|---|---|---|
Line 1: | Line 1: | ||
- | <html> <div class="pageTitle"> Scientific Activities </div></html> | + | <html> <div class="pageTitle"> Research Activities </div></html> |
- | MediCIS - UMR U1099 LTSI activities concern the development of new information science algorithms dedicated to the study of modeling approaches for model guided surgery and interventions. It aims at **improving surgical quality** by means of **surgical decision support** and **surgical skill evaluation and training**. | + | MediCIS - UMR U1099 LTSI activities concern the development of new information science algorithms dedicated to the study of modeling approaches for model guided surgery and interventions. It aims at **improving surgical quality** by means of **surgical decision and performance support** and **surgical skill evaluation and training**. |
====== General Methodological Objectives ====== | ====== General Methodological Objectives ====== | ||
- | {{:sds2020.001.jpeg|Our approach for surgical data science}} | + | {{:sds2020.001.jpeg?600|Our approach for surgical data science}}<html><br></html> |
- | Our objective is to study methods for modelling and analysis surgical and interventional knowledge and processes allowing the development of a new generation of computer assisted surgical (CAS) systems with full decision-making support. In this context, we are addressing the general problems of conception of **the surgical room of the future**. We address the issue of modelling through two complementary approaches: numeric with data fusion inspired approaches and symbolic with conceptual modelling and formal ontologies. | + | Our objective is to study methods for modelling and analysis surgical and interventional knowledge and processes allowing the development of a new generation of computer assisted surgical (CAS) systems with full decision-making support. In this context, we are addressing the general problems of conception of **the surgical room of the future**. We address the issue of modelling relying on the [[https://www.nature.com/articles/s41551-017-0132-7.epdf?shared_access_token=j-PFv8jY7hCUiQt79CCITNRgN0jAjWel9jnR3ZoTv0N9Xfj1RzhQDVxo6_1L34HRKUkkxoEvYNN5GLPkydk5FJ2B7f7Bw-YwfNNkeV67Uqa-fJtccgSUFtytexSCj-z2xvWzJ8R1D_pVfamTrlge9iBMogFGXvG_EtLr8nKLUkk%3D|Surgical Data Science]] methodology. |
- | * [[:activities:projects|more details on current and past projects]] | ||
- | {{:schema2s.jpg|Our approach for surgical skill evaluation and training}} | ||
====== Clinical Applications ====== | ====== Clinical Applications ====== | ||
Line 21: | Line 19: | ||
Surgical Data Science, Artificial Intelligence, Surgical Quality, Patient Safety, Computer Assisted Surgery, Surgical Robotics, Surgical Training, Surgical Evaluation, Non technical surgical skills, Ontology, Semantic Modeling, Machine and Deep Learning, Image guided Surgery, Surgical Process Models, Knowledge Modeling, Surgical Workflow, Operating Room of the Future | Surgical Data Science, Artificial Intelligence, Surgical Quality, Patient Safety, Computer Assisted Surgery, Surgical Robotics, Surgical Training, Surgical Evaluation, Non technical surgical skills, Ontology, Semantic Modeling, Machine and Deep Learning, Image guided Surgery, Surgical Process Models, Knowledge Modeling, Surgical Workflow, Operating Room of the Future | ||
+ | |||
+ | ====== Main Axes ====== | ||
+ | |||
+ | ^ [[activities:SET|Surgical evaluation and training]] ^ [[activities:SPA|Surgical planning and assistance]] ^ | ||
+ | | [[activities:SET|{{ | ||
+ | :activities:set.png?300| }}]] | [[activities:SPA|{{ | ||
+ | :activities:spa.png?300| }}]] | | ||
+ | |||
+ |