Frontiers in Marine Science (Apr 2023)

An underwater image enhancement model for domain adaptation

  • Xiwen Deng,
  • Xiwen Deng,
  • Tao Liu,
  • Shuangyan He,
  • Shuangyan He,
  • Xinyao Xiao,
  • Xinyao Xiao,
  • Peiliang Li,
  • Peiliang Li,
  • Yanzhen Gu,
  • Yanzhen Gu

DOI
https://doi.org/10.3389/fmars.2023.1138013
Journal volume & issue
Vol. 10

Abstract

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Underwater imaging has been suffering from color imbalance, low contrast, and low-light environment due to strong spectral attenuation of light in the water. Owing to its complex physical imaging mechanism, enhancing the underwater imaging quality based on the deep learning method has been well-developed recently. However, individual studies use different underwater image datasets, leading to low generalization ability in other water conditions. To solve this domain adaptation problem, this paper proposes an underwater image enhancement scheme that combines individually degraded images and publicly available datasets for domain adaptation. Firstly, an underwater dataset fitting model (UDFM) is proposed to merge the individual localized and publicly available degraded datasets into a combined degraded one. Then an underwater image enhancement model (UIEM) is developed base on the combined degraded and open available clear image pairs dataset. The experiment proves that clear images can be recovered by only collecting the degraded images at some specific sea area. Thus, by use of the scheme in this study, the domain adaptation problem could be solved with the increase of underwater images collected at various sea areas. Also, the generalization ability of the underwater image enhancement model is supposed to become more robust. The code is available at https://github.com/fanren5599/UIEM.

Keywords