Difference between revisions of "Projects:IHU"
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===3D-Surg: Surgery in 3D=== | ===3D-Surg: Surgery in 3D=== | ||
The IGG team (D. Bechmann, A. Capobianco, T. Blandet) participates in '''BPI 3D-Surg project: Surgery in 3D''' from 2015 to 2019, driven by Luc Soler. Task 3.4.1- New 3D interaction models contactless (financing of a PhD student) and Task 3.4.2- Optimization and prototyping for real-time interaction (financing of an engineer over 2 years). IGG budget for around 262k€. | The IGG team (D. Bechmann, A. Capobianco, T. Blandet) participates in '''BPI 3D-Surg project: Surgery in 3D''' from 2015 to 2019, driven by Luc Soler. Task 3.4.1- New 3D interaction models contactless (financing of a PhD student) and Task 3.4.2- Optimization and prototyping for real-time interaction (financing of an engineer over 2 years). IGG budget for around 262k€. | ||
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+ | ===HAYSTACK - Simulation and planning of percutaneous procedures for liver tumor ablation=== | ||
+ | IGG team (C. Essert) participates to project '''Haystack''' 2012-2015, PI Stéphane Cotin (EPI Inria Shacra), co-PI Caroline Essert. Budget 200 k€. | ||
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+ | This project aims at developing a biomechanical model of needle insertion in abdominal soft tissue, and the elaboration of a new automatic needle trajectory planning method taking into account a prediction of the deformation of the needle and organs in order to anticipate them. | ||
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+ | The applications are percutaneous thermal ablations of abdominal tumours. |
Revision as of 07:45, 14 April 2015
3D-Surg: Surgery in 3D
The IGG team (D. Bechmann, A. Capobianco, T. Blandet) participates in BPI 3D-Surg project: Surgery in 3D from 2015 to 2019, driven by Luc Soler. Task 3.4.1- New 3D interaction models contactless (financing of a PhD student) and Task 3.4.2- Optimization and prototyping for real-time interaction (financing of an engineer over 2 years). IGG budget for around 262k€.
HAYSTACK - Simulation and planning of percutaneous procedures for liver tumor ablation
IGG team (C. Essert) participates to project Haystack 2012-2015, PI Stéphane Cotin (EPI Inria Shacra), co-PI Caroline Essert. Budget 200 k€.
This project aims at developing a biomechanical model of needle insertion in abdominal soft tissue, and the elaboration of a new automatic needle trajectory planning method taking into account a prediction of the deformation of the needle and organs in order to anticipate them.
The applications are percutaneous thermal ablations of abdominal tumours.