A directional, shift insensitive, low-redundancy, wavelet transform

Shift sensitivity and poor directionality, two major disadvantages of the discrete wavelet transform, have previously been circumvented either by using highly redundant, non-separable wavelet transforms or by using restrictive designs to obtain a pair of wavelet trees with a transform-domain redunda...

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Bibliographic Details
Main Authors: Fernandes, F.C.A., van Spaendonck, R.L., Burrus, C.S.
Format: Conference Proceeding
Language:English
Subjects:
Arithmetic
Discrete transforms
Discrete wavelet transforms
Filter bank
Frequency
Geoscience
Hydrogen
Image reconstruction
Wavelet coefficients
Wavelet transforms
Online Access:Request full text
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Summary:Shift sensitivity and poor directionality, two major disadvantages of the discrete wavelet transform, have previously been circumvented either by using highly redundant, non-separable wavelet transforms or by using restrictive designs to obtain a pair of wavelet trees with a transform-domain redundancy of 4.0 in 2D. We demonstrate that excellent shift-invariance properties and directional selectivity may be obtained with a transform-domain redundancy of only 2.67 in 2D. We achieve this by projecting the wavelet coefficients from Selesnick's (see Wavelet Applications VII, Proceedings of SPIE, 2000) shift-insensitive, double-density wavelet transform so as to separate approximately the positive and negative frequencies, thereby increasing directionality. Subsequent decimation and a novel inverse projection maintain the low redundancy while ensuring perfect reconstruction. Although our transform generates complex-valued coefficients that provide valuable phase information, it may be implemented with a fast algorithm that uses only real arithmetic. To demonstrate the efficacy of our new transform, we show that it achieves state-of-the-art performance in a seismic image-processing application.
DOI:10.1109/ICIP.2001.959121