Add to ORKGThere has been some degree of success in all‐hexahedral meshing. Standard methods start with the object geometry defined by means of an all‐quadrilateral mesh, followed by the use of the combinatorial dual to the mesh in order to define the internal connectivities among elements. For all of the known methods using the dual concept, it is necessary to first prevent or eliminate self‐intersecting (SI) dual lines of the given quadrilateral mesh. The relevant features of SI lines are studied, giving a method to remove them, which avoids deforming the original geometry. Some examples of resulting meshes are shown where the current meshing method has been successfully applied. 
Currently, there is not a general method such that any given geometry can generate a mesh with elem...
We investigate a well-motivated mesh untangling objective function whose optimization automatically ...
In this work, we present a simultaneous untangling and smoothing technique for quadrilateral and hex...
There has been some degree of success in all-hexahedral meshing. Standard methods start with the o...
The domain geometry is defined by means of a closed all-quadrilateral mesh. The outer mesh imposes v...
AbstractSeveral promising approaches for hexahedral mesh generation work as follows: Given a prescri...
International audienceA purely topological approach for the generation of hexahedral meshes from qua...
The domain geometry is defined by means of a closed all-quadrilateral mesh. The outer mesh imposes v...
Abstract: Hexahedral elements provide greater accuracy and efficiency over tetrahedral elements for ...
This paper introduces a new algorithm called whisker weaving for constructing unstructured, all-hexa...
AbstractVolumetric polyhedral meshes are required in many applications, especially for solving parti...
A generic algorithm is proposed to merge structured and unstructured hexahedral meshes automatically...
Currently, there is not a general method such that any given geometry can generate a mesh with eleme...
In this article, we provide a detailed survey of techniques for hexahedral mesh generation. We cover...
AbstractThe finite element mesh regeneration, which is usually required during the design model veri...
Currently, there is not a general method such that any given geometry can generate a mesh with elem...
We investigate a well-motivated mesh untangling objective function whose optimization automatically ...
In this work, we present a simultaneous untangling and smoothing technique for quadrilateral and hex...
There has been some degree of success in all-hexahedral meshing. Standard methods start with the o...
The domain geometry is defined by means of a closed all-quadrilateral mesh. The outer mesh imposes v...
AbstractSeveral promising approaches for hexahedral mesh generation work as follows: Given a prescri...
International audienceA purely topological approach for the generation of hexahedral meshes from qua...
The domain geometry is defined by means of a closed all-quadrilateral mesh. The outer mesh imposes v...
Abstract: Hexahedral elements provide greater accuracy and efficiency over tetrahedral elements for ...
This paper introduces a new algorithm called whisker weaving for constructing unstructured, all-hexa...
AbstractVolumetric polyhedral meshes are required in many applications, especially for solving parti...
A generic algorithm is proposed to merge structured and unstructured hexahedral meshes automatically...
Currently, there is not a general method such that any given geometry can generate a mesh with eleme...
In this article, we provide a detailed survey of techniques for hexahedral mesh generation. We cover...
AbstractThe finite element mesh regeneration, which is usually required during the design model veri...
Currently, there is not a general method such that any given geometry can generate a mesh with elem...
We investigate a well-motivated mesh untangling objective function whose optimization automatically ...
In this work, we present a simultaneous untangling and smoothing technique for quadrilateral and hex...