Add to ORKGThis research work deals with the analysis and test of a normalized‐Jacobian metric used as a measure of the quality of all‐hexahedral meshes. Instead of element qualities, a measure of node quality was chosen. The chosen metric is a bound for deviation from orthogonality of faces and dihedral angles. We outline the main steps and algorithms of a program that is successful in improving the quality of initially invalid meshes to acceptable levels. For node movements, the program relies on a combination of gradient‐driven and simulated annealing techniques. Some examples of the results and speed are also shown
We present a technique to extend Jacobian-based distortion (quality) measures for planar triangles t...
Hexahedral (or hex-) meshes are preferred in many medical, engineering, and scientific simulation ap...
We compare inexact Newton and coordinate descent optimization methods for improving the quality of a...
This research work deals with the analysis and test of a normalized-Jacobian metric used as a measur...
The objective function based on mesh quality metric has a major impact on smoothing unstructured tet...
Currently, there is not a general method such that any given geometry can generate a mesh with eleme...
We present a new definition of distortion and quality measures for high-order hexahedral (quadrilate...
The objective function based on mesh quality metric has a major impact on smoothing unstructured tet...
Hexahedral meshes are a preferred volumetric representation in a wide range of scientific and engine...
AbstractAutomatic, all-hex meshes are required in many environments. However, current methods can pr...
Smoothing or geometrical optimization is one of basic procedures to improve the quality of mesh. Thi...
There are some approaches for all-hexahedral mesh quality improvement by means of node-movement whil...
In this paper, we introduce a new 3D hex mesh visual analysis system that emphasizes poor-quality ar...
We present a technique to extend any distortion (quality) measure for planar meshes to meshes on par...
We compare inexact Newton and coordinate descent optimization methods for improving the quality of a...
We present a technique to extend Jacobian-based distortion (quality) measures for planar triangles t...
Hexahedral (or hex-) meshes are preferred in many medical, engineering, and scientific simulation ap...
We compare inexact Newton and coordinate descent optimization methods for improving the quality of a...
This research work deals with the analysis and test of a normalized-Jacobian metric used as a measur...
The objective function based on mesh quality metric has a major impact on smoothing unstructured tet...
Currently, there is not a general method such that any given geometry can generate a mesh with eleme...
We present a new definition of distortion and quality measures for high-order hexahedral (quadrilate...
The objective function based on mesh quality metric has a major impact on smoothing unstructured tet...
Hexahedral meshes are a preferred volumetric representation in a wide range of scientific and engine...
AbstractAutomatic, all-hex meshes are required in many environments. However, current methods can pr...
Smoothing or geometrical optimization is one of basic procedures to improve the quality of mesh. Thi...
There are some approaches for all-hexahedral mesh quality improvement by means of node-movement whil...
In this paper, we introduce a new 3D hex mesh visual analysis system that emphasizes poor-quality ar...
We present a technique to extend any distortion (quality) measure for planar meshes to meshes on par...
We compare inexact Newton and coordinate descent optimization methods for improving the quality of a...
We present a technique to extend Jacobian-based distortion (quality) measures for planar triangles t...
Hexahedral (or hex-) meshes are preferred in many medical, engineering, and scientific simulation ap...
We compare inexact Newton and coordinate descent optimization methods for improving the quality of a...