Augmented Lagrangian method for tensor low-rank and sparsity models in multi-dimensional image recovery

Hong Zhu; Xiaoxia Liu; Lin Huang; Zhaosong Lu; Jian Lu; Michael K. Ng

Augmented Lagrangian method for tensor low-rank and sparsity models in multi-dimensional image recovery

Hong Zhu, Xiaoxia Liu, Lin Huang, Zhaosong Lu, Jian Lu, Michael K. Ng

Published: 01 Jan 2024, Last Modified: 05 Nov 2024Adv. Comput. Math. 2024EveryoneRevisionsBibTeXCC BY-SA 4.0

Abstract: Multi-dimensional images can be viewed as tensors and have often embedded a low-rankness property that can be evaluated by tensor low-rank measures. In this paper, we first introduce a tensor low-rank and sparsity measure and then propose low-rank and sparsity models for tensor completion, tensor robust principal component analysis, and tensor denoising. The resulting tensor recovery models are further solved by the augmented Lagrangian method with a convergence guarantee. And its augmented Lagrangian subproblem is computed by the proximal alternative method, in which each variable has a closed-form solution. Numerical experiments on several multi-dimensional image recovery applications show the superiority of the proposed methods over the state-of-the-art methods in terms of several quantitative quality indices and visual quality.

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