GPU-based real-time soft tissue deformation with cutting and haptic feedback.
Identifieur interne : 003721 ( Main/Exploration ); précédent : 003720; suivant : 003722GPU-based real-time soft tissue deformation with cutting and haptic feedback.
Auteurs : Hadrien Courtecuisse [France] ; Hoeryong Jung ; Jérémie Allard ; Christian Duriez ; Doo Yong Lee ; Stéphane CotinSource :
- Progress in biophysics and molecular biology [ 1873-1732 ] ; 2010.
English descriptors
- KwdEn :
- MESH :
- anatomy & histology : Connective Tissue.
- methods : Hepatectomy.
- physiology : Connective Tissue.
- Animals, Biomechanical Phenomena, Computer Simulation, Elasticity, Feedback, Physiological, Humans, Models, Biological, Pliability, Stress, Mechanical.
- mix :
Abstract
This article describes a series of contributions in the field of real-time simulation of soft tissue biomechanics. These contributions address various requirements for interactive simulation of complex surgical procedures. In particular, this article presents results in the areas of soft tissue deformation, contact modelling, simulation of cutting, and haptic rendering, which are all relevant to a variety of medical interventions. The contributions described in this article share a common underlying model of deformation and rely on GPU implementations to significantly improve computation times. This consistency in the modelling technique and computational approach ensures coherent results as well as efficient, robust and flexible solutions.
Url:
DOI: 10.1016/j.pbiomolbio.2010.09.016
PubMed: 20887746
Affiliations:
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Le document en format XML
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<front><div type="abstract" xml:lang="en">This article describes a series of contributions in the field of real-time simulation of soft tissue biomechanics. These contributions address various requirements for interactive simulation of complex surgical procedures. In particular, this article presents results in the areas of soft tissue deformation, contact modelling, simulation of cutting, and haptic rendering, which are all relevant to a variety of medical interventions. The contributions described in this article share a common underlying model of deformation and rely on GPU implementations to significantly improve computation times. This consistency in the modelling technique and computational approach ensures coherent results as well as efficient, robust and flexible solutions.</div>
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<name sortKey="Duriez, Christian" sort="Duriez, Christian" uniqKey="Duriez C" first="Christian" last="Duriez">Christian Duriez</name>
<name sortKey="Jung, Hoeryong" sort="Jung, Hoeryong" uniqKey="Jung H" first="Hoeryong" last="Jung">Hoeryong Jung</name>
<name sortKey="Lee, Doo Yong" sort="Lee, Doo Yong" uniqKey="Lee D" first="Doo Yong" last="Lee">Doo Yong Lee</name>
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<country name="France"><noRegion><name sortKey="Courtecuisse, Hadrien" sort="Courtecuisse, Hadrien" uniqKey="Courtecuisse H" first="Hadrien" last="Courtecuisse">Hadrien Courtecuisse</name>
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