Fractional and complex pseudo-splines and the construction of Parseval frames

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Pseudo-splines of integer order (m, ℓ) were introduced by Daubechies, Han, Ron, and Shen as a family which allows interpolation between the classical B-splines and the Daubechies’ scaling functions. The purpose of this paper is to generalize the pseudo-splines to fractional and complex orders (z, ℓ) with α ≔ Re z ≥ 1. This allows increased flexibility in regard to smoothness: instead of working with a discrete family of functions from Cm, m∈N0, one uses a continuous family of functions belonging to the Hölder spaces Cα−1. The presence of the imaginary part of z allows for direct utilization in complex transform techniques for signal and image analyses. We also show that in analogue to the integer case, the generalized pseudo-splines lead to constructions of Parseval wavelet frames via the unitary extension principle. The regularity and approximation order of this new class of generalized splines is also discussed.

论文关键词:Pseudo-splines,Fractional and complex B-splines,Framelets,Filters,Parseval frames,Unitary extension principle (UEP)

论文评审过程:Received 19 April 2016, Accepted 24 June 2017, Available online 11 July 2017, Version of Record 11 July 2017.

论文官网地址:https://doi.org/10.1016/j.amc.2017.06.023