Xi-Le Zhao scite author profile

Hyperspectral images (HSIs) are often corrupted by a mixture of several types of noise during the acquisition process, e.g., Gaussian noise, impulse noise, dead lines, stripes, and many others. Such complex noise could degrade the quality of the acquired HSIs, limiting the precision of the subsequent processing. In this paper, we present a novel tensor-based HSI restoration approach by fully identifying the intrinsic structures of the clean HSI part and the mixed noise part respectively. Specifically, for the clean HSI part, we use tensor Tucker decomposition to describe the global correlation among all bands, and an anisotropic spatial-spectral total variation (SSTV) regularization to characterize the piecewise smooth structure in both spatial and spectral domains. For the mixed noise part, we adopt the 1 norm regularization to detect the sparse noise, including stripes, impulse noise, and dead pixels. Despite that TV regulariztion has the ability of removing Gaussian noise, the Frobenius norm term is further used to model heavy Gaussian noise for some real-world scenarios. Then, we develop an efficient algorithm for solving the resulting optimization problem by using the augmented Lagrange multiplier (ALM) method. Finally, extensive experiments on simulated and real-world noise HSIs are carried out to demonstrate the superiority of the proposed method over the existing state-of-the-art ones.Index Terms-Hyperspectral image (HSI), mixed noise, low rank tensor decomposition, total variation (TV).

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A directional global sparse model for single image rain removal

Deng

Huang

Zhao

et al. 2018

Applied Mathematical Modelling

134

100

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A Novel Tensor-Based Video Rain Streaks Removal Approach via Utilizing Discriminatively Intrinsic Priors

et al. 2017

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FastDeRain: A Novel Video Rain Streak Removal Method Using Directional Gradient Priors

Jiang

Huang

Zhao

et al. 2019

IEEE Trans. on Image Process.

140

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Rain streaks removal is an important issue in outdoor vision systems and has recently been investigated extensively. In this paper, we propose a novel video rain streak removal approach FastDeRain, which fully considers the discriminative characteristics of rain streaks and the clean video in the gradient domain. Specifically, on the one hand, rain streaks are sparse and smooth along the direction of the raindrops, whereas on the other hand, clean videos exhibit piecewise smoothness along the rain-perpendicular direction and continuity along the temporal direction. Theses smoothness and continuity results in the sparse distribution in the different directional gradient domain, respectively. Thus, we minimize 1) the 1 norm to enhance the sparsity of the underlying rain streaks, 2) two 1 norm of unidirectional Total Variation (TV) regularizers to guarantee the anisotropic spatial smoothness, and 3) an 1 norm of the time-directional difference operator to characterize the temporal continuity. A split augmented Lagrangian shrinkage algorithm (SALSA) based algorithm is designed to solve the proposed minimization model. Experiments conducted on synthetic and real data demonstrate the effectiveness and efficiency of the proposed method. According to comprehensive quantitative performance measures, our approach outperforms other state-of-the-art methods, especially on account of the running time. The code of FastDeRain can be downloaded at https://github.com/TaiXiangJiang/FastDeRain. Index Terms-video rain streak removal, unidirectional total variation, split augmented Lagrangian shrinkage algorithm (SALSA) .

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Speckle noise removal in ultrasound images by first- and second-order total variation

et al. 2017

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Joint-Sparse-Blocks and Low-Rank Representation for Hyperspectral Unmixing

Huang

Deng

et al. 2019

IEEE Trans. Geosci. Remote Sensing

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Weighted Low-Rank Tensor Recovery for Hyperspectral Image Restoration

Chang

Yan

Zhao

et al. 2020

IEEE Trans. Cybern.

137

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Hyperspectral imaging, providing abundant spatial and spectral information simultaneously, has attracted a lot of interest in recent years. Unfortunately, due to the hardware limitations, the hyperspectral image (HSI) is vulnerable to various degradations, such noises (random noise, HSI denoising), blurs (Gaussian and uniform blur, HSI deblurring), and down-sampled (both spectral and spatial downsample, HSI super-resolution). Previous HSI restoration methods are designed for one specific task only. Besides, most of them start from the 1-D vector or 2-D matrix models and cannot fully exploit the structurally spectral-spatial correlation in 3-D HSI. To overcome these limitations, in this work, we propose a unified low-rank tensor recovery model for comprehensive HSI restoration tasks, in which non-local similarity between spectral-spatial cubic and spectral correlation are simultaneously captured by 3-order tensors. Further, to improve the capability and flexibility, we formulate it as a weighted low-rank tensor recovery (WLRTR) model by treating the singular values differently, and study its analytical solution. We also consider the exclusive stripe noise in HSI as the gross error by extending WLRTR to robust principal component analysis (WLRTR-RPCA). Extensive experiments demonstrate the proposed WLRTR models consistently outperform state-of-the-arts in typical low level vi-

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Partition level multiview subspace clustering

et al. 2020

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Xi-Le Zhao

Hyperspectral Image Restoration Via Total Variation Regularized Low-Rank Tensor Decomposition

A directional global sparse model for single image rain removal

A Novel Tensor-Based Video Rain Streaks Removal Approach via Utilizing Discriminatively Intrinsic Priors

FastDeRain: A Novel Video Rain Streak Removal Method Using Directional Gradient Priors

Speckle noise removal in ultrasound images by first- and second-order total variation

Joint-Sparse-Blocks and Low-Rank Representation for Hyperspectral Unmixing

Weighted Low-Rank Tensor Recovery for Hyperspectral Image Restoration

Partition level multiview subspace clustering

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