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    A new unsupervised pseudo-siamese network with two filling strategies for image denoising and quality enhancement

    Huang, Chenxi ORCID logoORCID: https://orcid.org/0000-0002-6695-753X, Hong, Dan, Yang, Chenhui, Cai, Chunting, Tao, Siyi, Clawson, Kathy and Peng, Yonghong ORCID logoORCID: https://orcid.org/0000-0002-5508-1819 (2023) A new unsupervised pseudo-siamese network with two filling strategies for image denoising and quality enhancement. Neural Computing and Applications, 35 (31). pp. 22855-22863. ISSN 0941-0643

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    Abstract

    Digital image noise may be introduced during acquisition, transmission, or processing and affects readability and image processing effectiveness. The accuracy of established image processing techniques, such as segmentation, recognition, and edge detection, is adversely impacted by noise. There exists an extensive body of work which focuses on circumventing such issues through digital image enhancement and noise reduction, but this work is limited by a number of constraints including the application of non-adaptive parameters, potential loss of edge detail information, and (with supervised approaches) a requirement for clean, labeled, training data. This paper, developed on the principle of Noise2Void, presents a new unsupervised learning approach incorporating a pseudo-siamese network. Our method enables image denoising without the need for clean images or paired noise images, instead requiring only noise images. Two independent branches of the network utilize different filling strategies, namely zero filling and adjacent pixel filling. Then, the network employs a loss function to improve the similarity of the results in the two branches. We also modify the Efficient Channel Attention module to extract more diverse features and improve performance on the basis of global average pooling. Experimental results show that compared with traditional methods, the pseudo-siamese network has a greater improvement on the ADNI dataset in terms of quantitative and qualitative evaluation. Our method therefore has practical utility in cases where clean images are difficult to obtain.

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