Asymptotic coefficients for Gaussian radial basis function interpolants

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摘要

Gaussian radial basis functions (RBFs) on an infinite interval with uniform grid pacing h are defined by ϕ(x;α,h)≡exp(-[α2/h2]x2). The only significant numerical parameter is α, the inverse width of the RBF functions relative to h. In the limit α→0, we demonstrate that the coefficients of the interpolant of a typical function f(x) grow proportionally to exp(π2/[4α2]). However, we also show that the approximation to the constant f(x)≡1 is a Jacobian theta function whose coefficients do not blow up as α→0. The subtle interplay between the complex-plane singularities of f(x) (the function being approximated) and the RBF inverse width parameter α are analyzed. For α≈1/2, the size of the RBF coefficients and the condition number of the interpolation matrix are both no larger than O(104) and the error saturation is smaller than machine epsilon, so this α is the center of a “safe operating range” for Gaussian RBFs.

论文关键词:Radial basis functions,Spectral methods,Gaussian radial basis functions,Interpolation

论文评审过程:Available online 23 March 2010.

论文官网地址:https://doi.org/10.1016/j.amc.2010.03.084