International audienceAccurate biomechanical modelling of soft tissue is a key aspect for achieving realistic surgical simulations. However, because medical simulation is a multi-disciplinary area, researchers do not always have sufficient resources to develop an efficient and physically rigorous model for organ deformation. We address this issue by implementing a CUDA-based nonlinear finite element model into the SOFA open source framework. The proposed model is an anisotropic visco-hyperelastic constitutive formulation implemented on a graphical processor unit (GPU). After presenting results on the model's performance we illustrate the benefits of its integration within the SOFA framework on a simulation of cataract surgery
There are two types of structures in human body, solid organs and hollow membrane like organs. Brain...
Purpose: NiftySim, an open-source finite element toolkit, has been designed to allow incorporation o...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
Abstract. Accurate biomechanical modelling of soft tissue is a key as-pect for achieving realistic s...
Efficient and accurate techniques for simulation of soft tissue deformation are an increasingly valu...
The use of biomechanical modelling, especially in conjunction with finite element analysis, has beco...
Purpose: NiftySim, an open-source finite element toolkit, has been designed to allow incorporation o...
Modelling the deformation of anatomical structures in real-time is a crucial problem in medical simu...
To achieve the real-time requirement of realistic deformable modelling, it is necessary to use the a...
Abstract. Previously almost all biomechanically-based time-critical surgical simulation has ignored ...
International audienceWe present here a new approach based on a 3D finite element software and nonli...
We present an implementation of a nonlinear explicit, displacement-based finite element code and its...
Finite element analysis (FEA) enjoys a variety of applications in the field of biomechanics, from si...
Background and objectives: An accurate and real-time model of soft tissue is critical for surgical s...
International audienceThis chapter presents different algorithms for modeling soft tissue deformatio...
There are two types of structures in human body, solid organs and hollow membrane like organs. Brain...
Purpose: NiftySim, an open-source finite element toolkit, has been designed to allow incorporation o...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
Abstract. Accurate biomechanical modelling of soft tissue is a key as-pect for achieving realistic s...
Efficient and accurate techniques for simulation of soft tissue deformation are an increasingly valu...
The use of biomechanical modelling, especially in conjunction with finite element analysis, has beco...
Purpose: NiftySim, an open-source finite element toolkit, has been designed to allow incorporation o...
Modelling the deformation of anatomical structures in real-time is a crucial problem in medical simu...
To achieve the real-time requirement of realistic deformable modelling, it is necessary to use the a...
Abstract. Previously almost all biomechanically-based time-critical surgical simulation has ignored ...
International audienceWe present here a new approach based on a 3D finite element software and nonli...
We present an implementation of a nonlinear explicit, displacement-based finite element code and its...
Finite element analysis (FEA) enjoys a variety of applications in the field of biomechanics, from si...
Background and objectives: An accurate and real-time model of soft tissue is critical for surgical s...
International audienceThis chapter presents different algorithms for modeling soft tissue deformatio...
There are two types of structures in human body, solid organs and hollow membrane like organs. Brain...
Purpose: NiftySim, an open-source finite element toolkit, has been designed to allow incorporation o...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...