peer reviewedThe finite element method is commonly used in biomedical applications for the simulation of the behaviour of biological structures. However, extracting finite element meshes from medical images is still very challenging. We propose an innovative system to create accurate multiple domain tetrahedral meshes from medical images. Our approach is based on an enhanced Marching Tetrahedra algorithm that extracts the boundary surfaces delimiting the different material domains in an integrated manner. Moreover, a surface reconstruction method is employed to ensure that the resulting mesh is a smooth and accurate surface representation of the original sampled structure. Mesh smoothing and decimation algorithms are also revised to conform...
A visual representation of the interior of a body is important for clinical analysis and medical int...
The aim of this work is to quickly generate good quality models of the human body. We created a meth...
There are fields of engineering where accurate and personalised data are required; biomedical applic...
The finite element (FE) method is commonly used in biomedical applications for the simulation of the...
Thanks to advances in medical imaging technologies and numerical methods, Patient-Specific Modelling...
This paper addresses the problem of generating three-dimensional (3D) finite element (FE) meshes fro...
We report a general purpose mesh generator for creating finite-element surface or volumetric mesh fr...
International audienceThe problem of generating realistic computer models of objects represented by ...
This thesis concerns the development, analysis, and computer implementation of mesh generation algor...
Medical imaging modalities, such as computed tomography (CT) and magnetic res-onance (MR), provide 3...
This paper describes an algorithm to extract adaptive and quality 3D meshes directly from volumetric...
We present a novel algorithm for generating three-dimensional unstructured tetrahedral meshes for bi...
We describe a combination of algorithms for high fidelity geometric modeling and mesh generation. Al...
Abstract: Because of FEM computational modelling of human tissues, in number of biomechanical applic...
This thesis addresses the problem of producing three-dimensional constrained Delaunay triangulated m...
A visual representation of the interior of a body is important for clinical analysis and medical int...
The aim of this work is to quickly generate good quality models of the human body. We created a meth...
There are fields of engineering where accurate and personalised data are required; biomedical applic...
The finite element (FE) method is commonly used in biomedical applications for the simulation of the...
Thanks to advances in medical imaging technologies and numerical methods, Patient-Specific Modelling...
This paper addresses the problem of generating three-dimensional (3D) finite element (FE) meshes fro...
We report a general purpose mesh generator for creating finite-element surface or volumetric mesh fr...
International audienceThe problem of generating realistic computer models of objects represented by ...
This thesis concerns the development, analysis, and computer implementation of mesh generation algor...
Medical imaging modalities, such as computed tomography (CT) and magnetic res-onance (MR), provide 3...
This paper describes an algorithm to extract adaptive and quality 3D meshes directly from volumetric...
We present a novel algorithm for generating three-dimensional unstructured tetrahedral meshes for bi...
We describe a combination of algorithms for high fidelity geometric modeling and mesh generation. Al...
Abstract: Because of FEM computational modelling of human tissues, in number of biomechanical applic...
This thesis addresses the problem of producing three-dimensional constrained Delaunay triangulated m...
A visual representation of the interior of a body is important for clinical analysis and medical int...
The aim of this work is to quickly generate good quality models of the human body. We created a meth...
There are fields of engineering where accurate and personalised data are required; biomedical applic...