Multivariate compactly supported $C^\infty$ functions by subdivision
Abstract
This paper discusses the generation of multivariate functions with compact small supports by subdivision schemes. Following the construction of such a univariate function, called \emph{Up-function}, by a non-stationary scheme based on masks of {spline subdivision schemes} of growing degrees, we term the multivariate functions we generate Up-like functions. We generate them by non-stationary schemes based on masks of box-splines of growing supports. To analyze the convergence and smoothness of these non-stationary schemes, we develop new tools which apply to a wider class of schemes than the class we study. With our method for achieving small compact supports, we obtain, in the univariate case, Up-like functions with supports in comparison to the support of the Up-function. Examples of univariate and bivariate Up-like functions are given. As in the univariate case, the construction of Up-like functions can motivate the generation of compactly supported wavelets of small support in any dimension.
Cite
@article{arxiv.2211.05677,
title = {Multivariate compactly supported $C^\infty$ functions by subdivision},
author = {Maria Charina and Costanza Conti and Nira Dyn},
journal= {arXiv preprint arXiv:2211.05677},
year = {2022}
}