The use of biomechanical modelling, especially in conjunction with finite element analysis, has become common in many areas of medical image analysis and surgical simulation. Clinical employment of such techniques is hindered by conflicting requirements for high fidelity in the modelling approach, and fast solution speeds. We report the development of techniques for high-speed nonlinear finite element analysis for surgical simulation. We use a fully nonlinear total Lagrangian explicit finite element formulation which offers significant computational advantages for soft tissue simulation. However, the key contribution of the work is the presentation of a fast graphics processing unit (GPU) solution scheme for the finite element equations. To...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
We present a reduced order finite element (FE) algorithm suitable for real-time nonlinear simulation...
Biomedical engineering solutions like surgical simulators need High Performance Computing (HPC) to a...
Finite element analysis (FEA) enjoys a variety of applications in the field of biomechanics, from si...
Purpose: NiftySim, an open-source finite element toolkit, has been designed to allow incorporation o...
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...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
As the presence of finite element implementations on General Purpose Graphics Processing Units (GPGP...
Purpose: NiftySim, an open-source finite element toolkit, has been designed to allow incorporation o...
As the Finite Element method is becoming more pervasive in scientific and engineering endeavors, the...
International audienceAccurate biomechanical modelling of soft tissue is a key aspect for achieving ...
Abstract. Accurate biomechanical modelling of soft tissue is a key as-pect for achieving realistic s...
To achieve the real-time requirement of realistic deformable modelling, it is necessary to use the a...
Reduced order modelling, in which a full system response is projected onto a subspace of lower dimen...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
We present a reduced order finite element (FE) algorithm suitable for real-time nonlinear simulation...
Biomedical engineering solutions like surgical simulators need High Performance Computing (HPC) to a...
Finite element analysis (FEA) enjoys a variety of applications in the field of biomechanics, from si...
Purpose: NiftySim, an open-source finite element toolkit, has been designed to allow incorporation o...
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...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
As the presence of finite element implementations on General Purpose Graphics Processing Units (GPGP...
Purpose: NiftySim, an open-source finite element toolkit, has been designed to allow incorporation o...
As the Finite Element method is becoming more pervasive in scientific and engineering endeavors, the...
International audienceAccurate biomechanical modelling of soft tissue is a key aspect for achieving ...
Abstract. Accurate biomechanical modelling of soft tissue is a key as-pect for achieving realistic s...
To achieve the real-time requirement of realistic deformable modelling, it is necessary to use the a...
Reduced order modelling, in which a full system response is projected onto a subspace of lower dimen...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
We present a reduced order finite element (FE) algorithm suitable for real-time nonlinear simulation...
Biomedical engineering solutions like surgical simulators need High Performance Computing (HPC) to a...