Title :
Artifact-Free Wavelet Denoising: Non-convex Sparse Regularization, Convex Optimization
Author :
Yin Ding ; Selesnick, Ivan W.
Author_Institution :
Dept. of Electr. & Comput. Eng., New York Univ., New York, NY, USA
Abstract :
Algorithms for signal denoising that combine wavelet-domain sparsity and total variation (TV) regularization are relatively free of artifacts, such as pseudo-Gibbs oscillations, normally introduced by pure wavelet thresholding. This paper formulates wavelet-TV (WATV) denoising as a unified problem. To strongly induce wavelet sparsity, the proposed approach uses non-convex penalty functions. At the same time, in order to draw on the advantages of convex optimization (unique minimum, reliable algorithms, simplified regularization parameter selection), the non-convex penalties are chosen so as to ensure the convexity of the total objective function. A computationally efficient, fast converging algorithm is derived.
Keywords :
optimisation; signal denoising; wavelet transforms; artifact-free wavelet denoising; convex optimization; nonconvex penalty functions; nonconvex sparse regularization; pseudoGibbs oscillations; signal denoising; total variation regularization; wavelet thresholding; wavelet-TV denoising; wavelet-domain sparsity; Convex functions; Linear programming; Noise; Noise reduction; Signal processing algorithms; TV; Wavelet transforms; Convex optimization; non-convex regularization; total variation denoising; wavelet denoising;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2015.2406314
