An algorithm for constructing biorthogonal multiwavelets with higher approximation orders

ANZIAM J. 47 (2006), 513-526

An algorithm for constructing biorthogonal multiwavelets with higher approximation orders

Yang Shouzhi
Department of Mathematics
Shantou University
Shantou 515063
P. R. China
szyang@stu.edu.cn

Abstract

Given a pair of biorthogonal multiscaling functions, we present an algorithm for raising their approximation orders to any desired level. Precisely, let $\Phi(x)$ and ${\tilde{\Phi}}(x)$ be a pair of biorthogonal multiscaling functions of multiplicity r, with approximation orders m and $\tilde{m}$ , respectively. Then for some integer s, we can construct a pair of new biorthogonal multiscaling functions $\Phi^{\text{new}}(x)=[\Phi^T(x), \phi_{r+1}(x),\phi_{r+2}(x),\dots,\phi_{r+s}(x)]^T$ and $\tilde{\Phi}^{\text{new}}(x) =[{\tilde{\Phi}}(x)^T,\tilde{\phi}_{r+1}(x),\tilde{\phi}_{r+2}(x),\dots, \tilde{\phi}_{r+s}(x)]^T$ with approximation orders n (

) and $\tilde{n}$ ( $\tilde{n}>\tilde{m}$ ), respectively. In addition, corresponding to $\Phi^{\text{new}}(x)$ and $\tilde{\Phi}^{\text{new}}(x)$ , a biorthogonal multiwavelet pair $\Psi^{\text{new}}(x)$ and $\tilde{\Psi}^{\text{new}}(x)$ is constructed explicitly. Finally, an example is given.

Download the article in PDF format (size 120 Kb)

Australian Mathematical Publishing Association Inc.