Author:
Somasekhar M.,Vivek S.,Malagi Keshav. S.,Ramesh V.,Deshpande S. M.
Abstract
AbstractIn the present work adaptation in meshless framework is proposed. The grid adaptation or mesh adaptation is quite well developed area in case of conventional grid based solvers and is popularly known as Adaptive mesh refinement (AMR). In such cases the adaptation is done by subdividing the cells or elements into finer cells or elements. In case of meshless methods there are no cells or elements but only a cloud of points. In this work we propose to achieve the meshless adaptation by locally refining the point density in the regions demanding higher resolution. This results into an adaptive enriched cloud of points. We call this method as Adaptive Cloud Refinement (ACR). The meshless solvers need connectivity information, which is a set of neighboring nodes. It is crucial part of meshless solvers. Obviously because of refining point density, the connectivity of nodes in such regions gets modified and hence has to be updated. An efficient connectivity update must exploit the fact that the node distribution would be largely unaffected except the region of adaptation. Hence connectivity updating needs to be done locally, only in these regions. In this paper we also present an extremely fast algorithm to update connectivity over adapted cloud called as ACU (Automatic Connectivity Update).
Subject
Physics and Astronomy (miscellaneous)
Reference17 articles.
1. A dynamic adaptation scheme for general 3-D hybrid meshes
2. Adaptive meshing techniques for viscous flow calculations on mixed element unstructured meshes
3. Ramesh V. , Least Squares Grid Free Kinetic Upwind Method, Ph.D Thesis, Indian Institute of Science, Bangalore, July 2001.
4. Weighted Least Squares Kinetic Upwind Method (WLSKUM) for computation of flowthrough blade passage with Kinetic Periodic Boundary Condition (KPBC);Arora;CFD J.,2005
Cited by
3 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献