A Theory for Multiresolution Signal Decomposition: The Wavelet Representation
IEEE Transactions on Pattern Analysis and Machine Intelligence
Signal processing with alpha-stable distributions and applications
Signal processing with alpha-stable distributions and applications
Data dependent wavelet thresholding in nonparametric regression with change-point applications
Computational Statistics & Data Analysis
Adaptive thresholding of wavelet coefficients
Computational Statistics & Data Analysis
Numerical performance of block thresholded wavelet estimators
Statistics and Computing
Spatially adaptive wavelet thresholding with context modeling for image denoising
IEEE Transactions on Image Processing
Adaptive wavelet thresholding for image denoising and compression
IEEE Transactions on Image Processing
The curvelet transform for image denoising
IEEE Transactions on Image Processing
Image denoising using scale mixtures of Gaussians in the wavelet domain
IEEE Transactions on Image Processing
Analytical form for a Bayesian wavelet estimator of images using the Bessel K form densities
IEEE Transactions on Image Processing
Fast communication: The BKF Bayesian wavelet estimator
Signal Processing
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In this paper, a nonparametric Bayesian estimator in the wavelet domains is presented. In this approach, we propose a prior statistical model based on the @a-stable densities adapted to capture the sparseness of the wavelet detail coefficients. An attempt to apply this model in the context of wavelet denoising have been already proposed in (Achim, A., Bezerianos, A., Tsakalides, P., 2001. Novel Bayesian multiscale method for speckle removal in medical ultrasound images. IEEE Trans. Med. Imag. 20, 772-783). However, despite its efficacy in modeling the heavy tail behavior of the empirical wavelet coefficients histograms, their denoiser proves very poor in practice especially at low SNRs. It suffers from many drawbacks such as numerical instability because of the lack of a closed-form expression of the Bayesian shrinkage rule, and the weakness of the estimator of the hyperparameters associated with the @a-stable prior. Here, we propose to overcome these limitations using the scale mixture of Gaussians theorem as an analytical approximation for @a-stable densities, which is not known in general, in order to obtain a closed-form expression of our Bayesian denoiser.