Finite element computations on quadtree meshes: strain smoothing and semi-analytical formulation
Numerical Analysis
2013-10-17 v2
Abstract
This short communication discusses two alternate techniques to treat hanging nodes in a quadtree mesh. Both the techniques share similarities, in that, they require only boundary information. Moreover, they do not require an explicit form of the shape functions, unlike the conventional approaches, for example, as in the work of Gupta \cite{gupta1978} or Tabarraei and Sukumar \cite{tabarraeisukumar2005}. Hence, no special numerical integration technique is required. One of the techniques relies on the strain projection procedure, whilst the other is based on the scaled boundary finite element method. Numerical examples are presented to demonstrate the accuracy and the convergence properties of the two techniques.
Cite
@article{arxiv.1310.2913,
title = {Finite element computations on quadtree meshes: strain smoothing and semi-analytical formulation},
author = {Sundararajan Natarajan and Ean Tat Ooi and Hou Man and Chongmin Song},
journal= {arXiv preprint arXiv:1310.2913},
year = {2013}
}