1. An Adaptive Non-local Total Variation Blind Deconvolution Employing Split Bregman Iteration.
- Author
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Zuo, Zhiyong, Zhang, Tianxu, Lan, Xia, and Yan, Luxin
- Subjects
ADAPTIVE computing systems ,DECONVOLUTION (Mathematics) ,SPLIT Bregman method ,ITERATIVE methods (Mathematics) ,IMAGE reconstruction ,MATHEMATICAL regularization - Abstract
Total variation (TV) has been used as a popular and effective image prior model in regularization-based image restoration, because of its ability to preserve edges. However, as the total variation model favors a piecewise constant solution, the processing results in the flat regions of the image are poor, and the amplitude of the edges will be underestimated; the underlying cause of the problem is that the model is based on derivation which only considers the local feature of the image. In this paper, we first propose an adaptive non-local total variation image blind restoration algorithm for deblurring a single image via a non-local total variation operator, which exploits the correlation in the image, and then an extended split Bregman iteration is proposed to address the joint minimization problem. Second, the maximum average absolute difference (MAAD) method is employed to estimate the blur support and initialize the blur kernel. Extensive experiments demonstrate that the proposed approach produces results superior to most methods in both visual image quality and quantitative measures. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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