Non-linear models used in dynamic simulations usually require the solution of multiple large and sparse linear systems in a successive manner. In this paper, we conduct a study of numerical solvers in the framework of real-time soft tissue deformation. Domain Decomposition paradigm has the potential of providing parallelism at both levels of equation assembling and linear system solving. In our case domain decomposition is employed to solve a non-linear model in a dynamic simulation in order to meet real-time computation by using parallel architecture. Numerical test on liver deformations using a non-linear deformation model is presented to evaluate the acceleration impact of the domain decomposition paradigm. Performances tests clearly sho...
The reaction of soft tissue to applied forces can be calculated with biomechanical simulation algori...
Background and Objective: Soft tissue modelling is crucial to surgery simulation. This paper introdu...
This thesis deals with the simulation of the dynatnic mechanical behavior of biological tissues, in ...
Non-linear models used in dynamic simulations usually require the solution of multiple large and spa...
International audienceMany applications in biomedical engineering and surgical simulators require ef...
International audienceWe introduce here a novel approach for the numerical simulation of nonlinear, ...
International audienceModel reduction techniques have shown to constitute a valuable tool for real-t...
Modelling the deformation of anatomical structures in real-time is a crucial problem in medical simu...
Paper presented at the 2005 International Conference on Advanced Robotics, ICAR '05, Seattle, WA.Rea...
peer reviewedThis paper presents a numerical method for interactive (real-time) simulations, which c...
The point collocation method of finite spheres (PCMFS) is used to model the hyperelastic response of...
International audienceUnderstanding and modeling liver biomechanics represents a significant challen...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
There are two types of structures in human body, solid organs and hollow membrane like organs. Brain...
This thesis addresses the problem soft tissue simulation for augmented reality applications in liver...
The reaction of soft tissue to applied forces can be calculated with biomechanical simulation algori...
Background and Objective: Soft tissue modelling is crucial to surgery simulation. This paper introdu...
This thesis deals with the simulation of the dynatnic mechanical behavior of biological tissues, in ...
Non-linear models used in dynamic simulations usually require the solution of multiple large and spa...
International audienceMany applications in biomedical engineering and surgical simulators require ef...
International audienceWe introduce here a novel approach for the numerical simulation of nonlinear, ...
International audienceModel reduction techniques have shown to constitute a valuable tool for real-t...
Modelling the deformation of anatomical structures in real-time is a crucial problem in medical simu...
Paper presented at the 2005 International Conference on Advanced Robotics, ICAR '05, Seattle, WA.Rea...
peer reviewedThis paper presents a numerical method for interactive (real-time) simulations, which c...
The point collocation method of finite spheres (PCMFS) is used to model the hyperelastic response of...
International audienceUnderstanding and modeling liver biomechanics represents a significant challen...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
There are two types of structures in human body, solid organs and hollow membrane like organs. Brain...
This thesis addresses the problem soft tissue simulation for augmented reality applications in liver...
The reaction of soft tissue to applied forces can be calculated with biomechanical simulation algori...
Background and Objective: Soft tissue modelling is crucial to surgery simulation. This paper introdu...
This thesis deals with the simulation of the dynatnic mechanical behavior of biological tissues, in ...