A Data Driven Approach to Multiscale Approximation with Anisotropically Scaled Radial Basis Functions

Authors

  • Rüdiger Kempf
  • Holger Wendland

DOI:

https://doi.org/10.13135/3103-1935/13351

Abstract

We study elliptic basis functions, which are a generalization of the class of well-known radial basis functions. We derive a purely data-driven way to determine the scaling matrix by using the principle component analysis method and combine the elliptic basis functions with a multilevel approximation scheme. We derive some results on the native spaces of such functions and the stability of the interpolation process. We give some numerical examples, showing that multilevel methods using elliptic basis functions can be superior to standard multilevel methods.

Downloads

Published

2026-02-24

How to Cite

Kempf, R., & Wendland, H. (2026). A Data Driven Approach to Multiscale Approximation with Anisotropically Scaled Radial Basis Functions. Journal of Approximation Software, 3(1). https://doi.org/10.13135/3103-1935/13351

Issue

Vol. 3 No. 1 (2026): Kansa40: Forty years of Kansa collocation method

Section

Articles

License

Copyright (c) 2026 Rüdiger Kempf, Holger Wendland

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

JAS only considers unpublished manuscripts.

JAS is committed to electronic open-access publishing since its foundation in 2023 and has chosen to apply the Creative Commons Attribution License (CCAL) CC-BY to all articles.

Under the Creative Commons Attribution License, authors retain ownership of the copyright for their article, but authors allow anyone to download, reuse, reprint, modify, distribute, and/or copy articles in JAS, provided that the original authors and source are credited.