A fast mesh deformation method using explicit interpolation

Luke E.; Collins E.; Blades E.

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A fast mesh deformation method using explicit interpolation

机译：使用显式插值的快速网格变形方法

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A novel mesh deformation algorithm for unstructured polyhedral meshes is developed utilizing a tree-code optimization of a simple direct interpolation method. The algorithm is shown to provide mesh quality that is competitive with radial basis function based methods, with markedly better performance in preserving boundary layer orthogonality in viscous meshes. The parallelization of the algorithm is described, and the algorithm cost is demonstrated to be O(nlog. n). The parallel implementation was used to deform meshes of 100 million nodes on nearly 200 processors demonstrating that the method scales to large mesh sizes. Results are provided for a simulation of a high Reynolds number fluid-structure interaction case using this technique.

机译：利用简单直接插值方法的树码优化技术，开发了一种用于非结构化多面体网格的新型网格变形算法。该算法显示出可提供与基于径向基函数的方法相媲美的网格质量，在保留粘性网格中边界层正交性方面具有明显更好的性能。描述了算法的并行化，并证明了算法成本为O（nlog。n）。并行实现用于变形近200个处理器上的1亿个节点的网格，这表明该方法可以扩展到较大的网格尺寸。提供了使用该技术模拟高雷诺数流体-结构相互作用情况的结果。

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《Journal of Computational Physics》 |2012年第2期|共16页
作者
Luke E.; Collins E.; Blades E.;
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正文语种 eng
中图分类数学物理方法;
关键词
Fluid structure interaction; Mesh deformation; Radial basis function;

机译：流体结构相互作用;网格变形;径向基函数;

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专利

1. A fast mesh deformation method using explicit interpolation [J] . Luke E., Collins E., Blades E. Journal of Computational Physics . 2012,第2期

机译：使用显式插值的快速网格变形方法
2. Efficient mesh deformation based on radial basis function interpolation by means of the inverse fast multipole method [J] . Coulier Pieter, Darve Eric Computer Methods in Applied Mechanics and Engineering . 2016,第auga15期

机译：逆快速多极点法基于径向基函数插值的高效网格变形
3. FAST DYNAMIC MESHING METHOD BASED ON DELAUNAY GRAPH AND INVERSE DISTANCE WEIGHTING INTERPOLATION [J] . YIBIN WANG, NING QIN, NING ZHAO International Journal of Modern Physics: Conference Series . 2016,第4a1期

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4. A fast remesh-free mesh deformation method based on radial basis function interpolation and its application to optimal design of electromagnetic devices [C] . Yanpu Zhao, W. N. Fu Progress In Electromagnetic Research Symposium . 2016

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5. Methods Development for Computational Mechanics: Finite Deformation Kinematics and Mesh-to-Mesh Solution Transfer [D] . Mish, Samuel Peter. 2020

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6. Comparative modelling of crack propagation in elastic–plastic materials using the meshfree local radial basis point interpolation method and eXtended finite-element method [O] . Yazhe Li, Nengxiong Xu, Jinzhi Tu, 2019

机译：使用无网格局部径向基点插值法和扩展有限元法对弹塑性材料中裂纹扩展进行比较建模
7. Efficient mesh deformation based on radial basis function interpolation by means of the inverse fast multipole method [O] . Coulier, Pieter, Darve, E. 2016

机译：逆快速多极点法基于径向基函数插值的高效网格变形

A fast mesh deformation method using explicit interpolation

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