Negative Spline Wavelets

Wavelets are constructed comprising spline functions with multiple knots. These wavelets have certain derivatives vanishing at the integers, in an analogous manner to the \(B\)-splines of Schoenberg and Sharma related to cardinal Hermite interpolation. 1994 Academic Press, Inc.

We provide a simple representation of Strömberg's wavelets which was studied in [J. Strömberg, in "Conference on Harmonic Analysis in Honor of A. Zymund" (W. Beckner, Ed.), Wadeworth International Group, Belmont, CA, 1983]. This representation enables us to compute those wavelets efficiently. We poi

The \(m\) th order cardinal \(B\)-spline-wavelet (or simply, \(B\)-wavelet) \(\psi_{m}\) is known to generate orthogonal decompositions of any function in \(L^{2}(-\infty, \infty)\). Since \(\psi_{m}\) is usually .considered as a bandpass filter, a wavelet series \(g=\sum c, \psi_{m}(\cdots)\) may b

The method of Dubuc and Deslauriers on symmetric interpolatory subdivision is extended to study the relationship between interpolation processes and wavelet construction. Refinable and interpolatory functions are constructed in stages from B-splines. Their method constructs the filter sequence (its

Periodic scaling functions and wavelets are constructed directly from non-stationary multiresolutions of \(L^{2}([0,2 \pi))\), the space of square-integrable \(2 \pi\)-periodic functions. For a multiresolution \(\left\{V_{k}: k \geqslant 0\right\}\), necessary and sufficient conditions for \(\cup_{k