A Weighted Difference of Anisotropic and Isotropic Total Variation Model for Image Processing

Date

2015-09-10

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Society for Industrial and Applied Mathematics Publications

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Abstract

We propose a weighted difference of anisotropic and isotropic total variation (TV) as a regularization for image processing tasks, based on the well-known TV model and natural image statistics. Due to the form of our model, it is natural to compute via a difference of convex algorithm (DCA). We draw its connection to the Bregman iteration for convex problems and prove that the iteration generated from our algorithm converges to a stationary point with the objective function values decreasing monotonically. A stopping strategy based on the stable oscillatory pattern of the iteration error from the ground truth is introduced. In numerical experiments on image denoising, image deblurring, and magnetic resonance imaging (MRI) reconstruction, our method improves on the classical TV model consistently and is on par with representative state-of-the-art methods.

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Keywords

Anisotropic total variation, Bregman iterations, Convergence--Mathematical models, Isotropic total variation, Weighted differences, Algorithms, Anisotropy, Image processing, Iterative methods (Mathematics), Magnetic resonance imaging

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©2015 Society for Industrial and Applied Mathematics.

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