2019
DOI: 10.1109/access.2019.2901691
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A Framework for Image Denoising Using First and Second Order Fractional Overlapping Group Sparsity (HF-OLGS) Regularizer

Abstract: Denoising images subjected to Gaussian and Poisson noise has attracted attention in many areas of image processing. This paper introduces an image denoising framework using higher order fractional overlapping group sparsity prior to sparser image representation constraint. The proposed prior has a capability of avoiding staircase effects in both edges and oscillatory patterns (textures). We adopt the alternating direction method of multipliers for optimizing the proposed objective function by converting it int… Show more

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Cited by 17 publications
(4 citation statements)
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“…fractional order compensators [18], [19], fractional order observer [20] and fractional order sliding mode observer [21]. Inherent strengths of fractional calculus in terms of long-term memory, nonlocality and weak singularity makes it preferable to be applied in optimization problems such as signal and image processing [22], [23] and complex neural network training [24].…”
Section: Introductionmentioning
confidence: 99%
“…fractional order compensators [18], [19], fractional order observer [20] and fractional order sliding mode observer [21]. Inherent strengths of fractional calculus in terms of long-term memory, nonlocality and weak singularity makes it preferable to be applied in optimization problems such as signal and image processing [22], [23] and complex neural network training [24].…”
Section: Introductionmentioning
confidence: 99%
“…Adam et al [20] combined non-convex higher order TV with overlapping group sparsity to construct a hybrid model (HNHOTV), so that it can maintain the uniformity of the staircase edge. Kumar et al [21] proposed a model of combing higher order fractional TV and overlapping group sparsity to retain the texture pattern in the image while decrease staircase artifacts. In our previous work [22], we combined high-order total variation with overlapping group sparsity (OGSHOTV).…”
Section: Introductionmentioning
confidence: 99%
“…As another degradation factor, image formation may involve undesirable blurrings such as motion or out-of-focus. By rewriting the concerned images into column-major vectorized form, we can regard the observed image g 2 R n�n as a realization of Poisson random vector with expected value Hf + b, where H is a n 2 × n 2 convolution matrix corresponding to the point spreading function (PSF) which models blur effects, f 2 R n�n is the original image, and b 2 R n�n is a nonnegative constant background [4][5][6].…”
Section: Introductionmentioning
confidence: 99%