AI Chat AI Image Generator AI Video Text to Speech

A new variable shape parameter strategy for RBF approximation using neural networks

10/30/2022

∙

by Fatemeh Nassajian Mojarrad, et al.

∙

∙

The choice of the shape parameter highly effects the behaviour of radial basis function (RBF) approximations, as it needs to be selected to balance between ill-condition of the interpolation matrix and high accuracy. In this paper, we demonstrate how to use neural networks to determine the shape parameters in RBFs. In particular, we construct a multilayer perceptron trained using an unsupervised learning strategy, and use it to predict shape parameters for inverse multiquadric and Gaussian kernels. We test the neural network approach in RBF interpolation tasks and in a RBF-finite difference method in one and two-space dimensions, demonstrating promising results.

Fatemeh Nassajian Mojarrad
3 publications
Maria Han Veiga
10 publications
Jan S. Hesthaven
15 publications
Philipp Öffner
25 publications

page 16

page 18

page 20

research

∙ 06/26/2023

Sharp inverse estimates for radial basis function interpolation: One-to-one correspondence between smoothness and approximation rates

While direct statemets for kernel based approximation on domains Ω⊂ℝ^d u...

0 Tizian Wenzel, et al. ∙

research

∙ 11/22/2022

Stable and accurate least squares radial basis function approximations on bounded domains

The computation of global radial basis function (RBF) approximations req...

0 Ben Adcock, et al. ∙

research

∙ 12/30/2022

A stabilized local integral method using RBFs for the Helmholtz equation with applications to wave chaos and dielectric microresonators

Most problems in electrodynamics do not have an analytical solution so m...

0 L. Ponzellini Marinelli, et al. ∙

research

∙ 04/30/2022

NeuralEF: Deconstructing Kernels by Deep Neural Networks

Learning the principal eigenfunctions of an integral operator defined by...

0 Zhijie Deng, et al. ∙

research

∙ 05/09/2020

Molecular Sparse Representation by 3D Ellipsoid Radial Basis Function Neural Networks via L_1 Regularization

In this paper, we have developed an ellipsoid radial basis function neur...

0 Sheng Gui, et al. ∙

research

∙ 10/19/2022

The phase unwrapping of under-sampled interferograms using radial basis function neural networks

Interferometry can measure the shape or the material density of a system...

0 Pierre-Alexandre Gourdain, et al. ∙

research

∙ 03/26/2022

An adaptive residual sub-sampling algorithm for kernel interpolation based on maximum likelihood estimations

In this paper we propose an enhanced version of the residual sub-samplin...

0 R. Cavoretto A. De Rossi, et al. ∙