Mixed Gaussian-Impulse Noise Removal from Highly Corrupted Images via Adaptive Local and Nonlocal Statistical Priors
August 29, 2015 Β· Declared Dead Β· π Iranian Conference on Machine Vision and Image Processing
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Authors
Nasser Eslahi, Hami Mahdavinataj, Ali Aghagolzadeh
arXiv ID
1508.07415
Category
cs.CV: Computer Vision
Citations
6
Venue
Iranian Conference on Machine Vision and Image Processing
Last Checked
4 months ago
Abstract
The motivation of this paper is to introduce a novel framework for the restoration of images corrupted by mixed Gaussian-impulse noise. To this aim, first, an adaptive curvelet thresholding criterion is proposed which tries to adaptively remove the perturbations appeared during denoising process. Then, a new statistical regularization term, called joint adaptive statistical prior (JASP), is established which enforces both the local and nonlocal statistical consistencies, simultaneously, in a unified manner. Furthermore, a novel technique for mixed Gaussian plus impulse noise removal using JASP in a variational scheme is developed--we refer to it as De-JASP. To efficiently solve the above variational scheme, an efficient alternating minimization algorithm based on split Bregman iterative framework is developed. Extensive experimental results manifest the effectiveness of the proposed method comparing with the current state-of-the-art methods in mixed Gaussian-impulse noise removal.
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