2009 IEEE Trans. Pattern Anal. Mach. Intell. 31 385], in which the differential polarization characteristics of backscattered light and target light are used to recover clear image. More researches were conducted including Huang et al.’s research [Huang B J, Liu T G, Hu H F, et al. 2016 Optics Express 24 9826], Liu et al.’s study [Liu F, Han P L, Wei Y, et al. 2018 Opt. Lett. 43 4903], etc.However, in the polarization imaging methods, the uniform underwater backscattered light and polarization parameters over the whole image are usually assumed. In most practical applications, these assumptions cannot hold true. Therefore, the inaccurate estimation of backscattered light makes it difficult to completely descatter an image, leading many methods to fail to detect the target in non-uniform turbid water.In this study, we propose a low-rank-and-sparse-decomposition-based polarization imaging combined with common mode rejection feature of polarization information in scattered light field to eliminate non-uniformity and scattering caused by severe scattering during active polarization imaging of turbid water. The backscattered light is highly reduced and the information contained in background is single and highly correlated. It conforms to the low-rank characteristics of the image. What is more, the target in underwater scene occupies a relatively small proportion, which conforms to the sparsity characteristics of the image. Therefore, combining the low-rank characteristics of backscattered light with the sparse characteristics of target information light, we separate them through low-rank and sparse matrix decomposition to recover clear underwater image. Both experimental and objective image quality evaluation results demonstrate the validity of the proposed method.The proposed method works well in improving polarization vision in non-uniform turbid water, which is due to its ability to make the underwater scene uniform and the target and background information separated through their distribution difference of polarization characteristics. It possesses potential applications in turbid water imaging."> - 必威体育下载

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    Liu Fei, Sun Shao-Jie, Han Ping-Li, Zhao Lin, Shao Xiao-Peng
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    • Abstract views:4953
    • PDF Downloads:175
    • Cited By:0
    Publishing process
    • Received Date:10 February 2021
    • Accepted Date:17 April 2021
    • Available Online:07 June 2021
    • Published Online:20 August 2021

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