Letters: Complex wavelet based texture classification
Neurocomputing
IEEE Transactions on Signal Processing
Construction of Hilbert transform pairs of wavelet bases and Gabor-like transforms
IEEE Transactions on Signal Processing
Noise reduction of cDNA microarray images using complex wavelets
IEEE Transactions on Image Processing
Uniform discrete curvelet transform
IEEE Transactions on Signal Processing
Single-Channel Source Separation of Audio Signals Using Bark Scale Wavelet Packet Decomposition
Journal of Signal Processing Systems
Shift-invariant texture retrieval using P- contourlet
Proceedings of the International Conference on Advances in Computing, Communications and Informatics
Complex-valued Thiran allpole filters
Digital Signal Processing
Fast Motion Estimation Algorithm Based on Complex Wavelet Transform
Journal of Signal Processing Systems
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Although the discrete wavelet transform (DWT) is a powerful tool for signal and image processing, it has three serious disadvantages: shift sensitivity, poor directionality, and lack of phase information. To overcome these disadvantages, we introduce two-stage mapping-based complex wavelet transforms that consist of a mapping onto a complex function space followed by a DWT of the complex mapping. Unlike other popular transforms that also mitigate DWT shortcomings, the decoupled implementation of our transforms has two important advantages. First, the controllable redundancy of the mapping stage offers a balance between degree of shift sensitivity and transform redundancy. This allows us to create a directional, non-redundant, complex wavelet transform with potential benefits for image coding systems. To the best of our knowledge, no other complex wavelet transform is simultaneously directional and non-redundant. The second advantage of our approach is the flexibility to use any DWT in the transform implementation. As an example, we can exploit this flexibility to create the complex double-density DWT (CDDWT): a shift-insensitive, directional, complex wavelet transform with a low redundancy of (3m-1/2m-1) in m dimensions. To the best of our knowledge, no other transform achieves all these properties at a lower redundancy.