AbstractPhysiological systems are inherently complex, involving multi-physics phenomena at a multitude of spatial and temporal scales. To realistically simulate their functions, detailed high quality multi-resolution often patient specific human models are required. Mesh generation has remained a central topic in finite element analysis (FEA) for a few decades now. Recent developments in high performance computing (HPC) driven by the need for multi-physics multiscale simulations of physiological systems define new challenges in this area. Even though many algorithms have been developed over years and are offered as commercial packages, they are often limited to mechanical engineering applications only. Mesh generation for human anatomical d...
Journal ArticleWe apply morphing to t h e problem of generating the initial mesh for finite element ...
peer reviewedThe finite element method is commonly used in biomedical applications for the simulatio...
In order to simulate the cardiac function for a patient-specific geometry, the generation of the com...
AbstractPhysiological systems are inherently complex, involving multi-physics phenomena at a multitu...
This thesis concerns the development, analysis, and computer implementation of mesh generation algor...
International audienceThe complexity of most surgical models has not allowed interactive simulations...
Numerical simulations of the cardiovascular system are growing in popularity due to the increasing a...
AbstractWe describe a new implementation of an adaptive multi-tissue tetrahedral mesh generator targ...
There are fields of engineering where accurate and personalised data are required; biomedical applic...
We describe a combination of algorithms for high fidelity geometric modeling and mesh generation. Al...
We describe a new implementation of an adaptive multi-tissue tetrahedral mesh generator targeting an...
International audienceSimulating the deformation of the human anatomy is a central element of Medica...
A workflow for high-resolution efficient numerical modeling of bioimpedance measurements is suggeste...
International audienceThis article describes a number of new techniques useful for the construction ...
Computational models of cardiac electromechanics (EM) are increasingly being applied to clinical pro...
Journal ArticleWe apply morphing to t h e problem of generating the initial mesh for finite element ...
peer reviewedThe finite element method is commonly used in biomedical applications for the simulatio...
In order to simulate the cardiac function for a patient-specific geometry, the generation of the com...
AbstractPhysiological systems are inherently complex, involving multi-physics phenomena at a multitu...
This thesis concerns the development, analysis, and computer implementation of mesh generation algor...
International audienceThe complexity of most surgical models has not allowed interactive simulations...
Numerical simulations of the cardiovascular system are growing in popularity due to the increasing a...
AbstractWe describe a new implementation of an adaptive multi-tissue tetrahedral mesh generator targ...
There are fields of engineering where accurate and personalised data are required; biomedical applic...
We describe a combination of algorithms for high fidelity geometric modeling and mesh generation. Al...
We describe a new implementation of an adaptive multi-tissue tetrahedral mesh generator targeting an...
International audienceSimulating the deformation of the human anatomy is a central element of Medica...
A workflow for high-resolution efficient numerical modeling of bioimpedance measurements is suggeste...
International audienceThis article describes a number of new techniques useful for the construction ...
Computational models of cardiac electromechanics (EM) are increasingly being applied to clinical pro...
Journal ArticleWe apply morphing to t h e problem of generating the initial mesh for finite element ...
peer reviewedThe finite element method is commonly used in biomedical applications for the simulatio...
In order to simulate the cardiac function for a patient-specific geometry, the generation of the com...