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On the role of polynomials in RBF-FD approximations: III. Behavior near domain boundaries Público Deposited

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https://scholar.colorado.edu/concern/articles/g445cd90d
Abstract
  • Radial basis function generated finite difference (RBF-FD) approximations generalize grid-based regular finite differences to scattered node sets. These become particularly effective when they are based on polyharmonic splines (PHS) augmented with multi-variate polynomials (PHS+poly). One key feature is that high orders of accuracy can be achieved without having to choose an optimal shape parameter and without having to deal with issues related to numerical ill-conditioning. The strengths of this approach were previously shown to be especially striking for approximations near domain boundaries, where the stencils become highly one-sided. Due to the polynomial Runge phenomenon, regular FD approximations of high accuracy will in such cases have very large weights well into the domain. The inclusion of PHS-type RBFs in the process of generating weights makes it possible to avoid this adverse effect. With that as motivation, this study aims at gaining a better understanding of the behavior of PHS+poly generated RBF-FD approximations near boundaries, illustrating it in 1-D, 2-D and 3-D.

Creator
Date Issued
  • 2018-01-01
Additional Information
  • This is a post-print of an article published in the Journal of Computational Physics. - Journal of Computational Physics
Academic Affiliation
Journal Title
Journal Volume
  • 380.0
Última modificação
  • 2020-04-30
Resource Type
Declaração de direitos
DOI
ISSN
  • 1090-2716
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