This paper addresses the problem of generating three-dimensional (3D) finite element (FE) meshes from medical voxel datasets. With our background in cognitive neuroscience, we deal with brain MR tomograms up to 256"3 voxels which contain a multitude of incompletely definable, complex-shaped objects. We describe an algorithm that allows the fast and stable creation of very large 3D meshes with well-defined geometric properties. The task of generating anisotropic meshes consisting of up to one million tetrahedra is fulfilled within minutes on a standard workstation. As the angles of the tetrahedra have a direct influence on the stability of the finite element analysis, special care has been taken to assess the element quality. Our algori...
We report a general purpose mesh generator for creating finite-element surface or volumetric mesh fr...
This paper describes an algorithm to extract adaptive and quality 3D meshes directly from volumetric...
The need for realistic electric field calculations in human noninvasive brain stimulation is undispu...
In this paper we evaluate three conceptually different approaches to mesh generation for deformable ...
peer reviewedThe finite element method is commonly used in biomedical applications for the simulatio...
This paper introduces a highly adaptive and automated approach for generating Finite Element (FE) di...
This thesis concerns the development, analysis, and computer implementation of mesh generation algor...
Realistic computer modelling of biological objects requires building of very accurate and realistic ...
This thesis addresses the problem of producing three-dimensional constrained Delaunay triangulated m...
There are fields of engineering where accurate and personalised data are required; biomedical applic...
Abstract: Because of FEM computational modelling of human tissues, in number of biomechanical applic...
Three-dimensional (3-D) finite element (FE) modeling in orthopedics biomechanics has gained consider...
FE-models for structural solid mechanics analyses can be readily generated from computer images via ...
Medical imaging modalities, such as computed tomography (CT) and magnetic res-onance (MR), provide 3...
There are many ways to generate geometrical models for numerical simulation, and most of them start ...
We report a general purpose mesh generator for creating finite-element surface or volumetric mesh fr...
This paper describes an algorithm to extract adaptive and quality 3D meshes directly from volumetric...
The need for realistic electric field calculations in human noninvasive brain stimulation is undispu...
In this paper we evaluate three conceptually different approaches to mesh generation for deformable ...
peer reviewedThe finite element method is commonly used in biomedical applications for the simulatio...
This paper introduces a highly adaptive and automated approach for generating Finite Element (FE) di...
This thesis concerns the development, analysis, and computer implementation of mesh generation algor...
Realistic computer modelling of biological objects requires building of very accurate and realistic ...
This thesis addresses the problem of producing three-dimensional constrained Delaunay triangulated m...
There are fields of engineering where accurate and personalised data are required; biomedical applic...
Abstract: Because of FEM computational modelling of human tissues, in number of biomechanical applic...
Three-dimensional (3-D) finite element (FE) modeling in orthopedics biomechanics has gained consider...
FE-models for structural solid mechanics analyses can be readily generated from computer images via ...
Medical imaging modalities, such as computed tomography (CT) and magnetic res-onance (MR), provide 3...
There are many ways to generate geometrical models for numerical simulation, and most of them start ...
We report a general purpose mesh generator for creating finite-element surface or volumetric mesh fr...
This paper describes an algorithm to extract adaptive and quality 3D meshes directly from volumetric...
The need for realistic electric field calculations in human noninvasive brain stimulation is undispu...