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2013 Mexican International Conference on Computer Science (2006)
San Luis Potosi, Mexico
Sept. 18, 2006 to Sept. 22, 2006
ISSN: 1550-4069
ISBN: 0-7695-2666-7
pp: 70-80
Gustavo Rodriguez-Gomez , Ciencias Computacionales Instituto Nacional de Astrofisica, Optica y Electronica Puebla, Tonantzintla, Mexico
Jose Antonio Munoz-Gomez , Ciencias Computacionales Instituto Nacional de Astrofisica, Optica y Electronica Puebla, Tonantzintla, Mexico
Pedro Gonzalez-Casanova , UICA-DGSCA Universidad Nacional Autonoma de Mexico
ABSTRACT
In this work, by using the local node refinement technique purposed in [2, 1], and a quad-tree type algorithm [3, 13], we built a global refinement technique for Kansa?s unsymmetric collocation approach. The proposed scheme is based on a cell by cell data structure, which by using the former local error estimator, iteratively refines the node density in regions with insufficient accuracy. We test our algorithm for steady state partial differential equations in one and two dimensions. By using thin-plate spline kernel functions, we found that the node refinement let us to reduce the approximation error and that the node insertion is only performed in regions where the analytical solution shows a high spatial variation. In addition, we found that the node refinement outperform in accuracy and number of nodes in comparison with the global classical Cartesian hrefinement technique.
INDEX TERMS
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CITATION
Gustavo Rodriguez-Gomez, Jose Antonio Munoz-Gomez, Pedro Gonzalez-Casanova, "Adaptive Node Refinement Collocation Method for Partial Differential Equations", 2013 Mexican International Conference on Computer Science, vol. 00, no. , pp. 70-80, 2006, doi:10.1109/ENC.2006.4
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