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Indexed by:Journal Papers
Date of Publication:2013-10-01
Journal:SIGNAL PROCESSING-IMAGE COMMUNICATION
Included Journals:SCIE、EI、Scopus
Volume:28
Issue:9
Page Number:1156-1170
ISSN No.:0923-5965
Key Words:Motion deblurring; Kernel estimation; Image restoration; Salient structures/edges
Abstract:Blind image deblurring algorithms have been improving steadily in the past years. Most state-of-the-art algorithms, however, still cannot perform perfectly in challenging cases, especially in large blur setting. In this paper, we focus on how to estimate a good blur kernel from a single blurred image based on the image structure. We found that image details caused by blur could adversely affect the kernel estimation, especially when the blur kernel is large. One effective way to remove these details is to apply image denoising model based on the total variation (TV). First, we developed a novel method for computing image structures based on the TV model, such that the structures undermining the kernel estimation will be removed. Second, we applied a gradient selection method to mitigate the possible adverse effect of salient edges and improve the robustness of kernel estimation. Third, we proposed a novel kernel estimation method, which is capable of removing noise and preserving the continuity in the kernel. Finally, we developed an adaptive weighted spatial prior to preserve sharp edges in latent image restoration. Extensive experiments testify to the effectiveness of our method on various kinds of challenging examples.