Phase and TV Based Convex Sets for Blind Deconvolution of Microscopic Images

March 16, 2015 Β· Declared Dead Β· πŸ› IEEE Journal on Selected Topics in Signal Processing

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Authors Mohammad Tofighi, Onur Yorulmaz, A. Enis Cetin arXiv ID 1503.04776 Category math.OC: Optimization & Control Cross-listed cs.CV Citations 32 Venue IEEE Journal on Selected Topics in Signal Processing Last Checked 2 months ago
Abstract
In this article, two closed and convex sets for blind deconvolution problem are proposed. Most blurring functions in microscopy are symmetric with respect to the origin. Therefore, they do not modify the phase of the Fourier transform (FT) of the original image. As a result blurred image and the original image have the same FT phase. Therefore, the set of images with a prescribed FT phase can be used as a constraint set in blind deconvolution problems. Another convex set that can be used during the image reconstruction process is the epigraph set of Total Variation (TV) function. This set does not need a prescribed upper bound on the total variation of the image. The upper bound is automatically adjusted according to the current image of the restoration process. Both of these two closed and convex sets can be used as a part of any blind deconvolution algorithm. Simulation examples are presented.
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