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Xu XG, Fan XS, Liu YL. Real-time underwater image enhancement using adaptive full-scale Retinex. JOURNAL OFCOMPUTER SCIENCE AND TECHNOLOGY 38(4): 885−898 July 2023. DOI: 10.1007/s11390-022-1115-z.
Citation: Xu XG, Fan XS, Liu YL. Real-time underwater image enhancement using adaptive full-scale Retinex. JOURNAL OFCOMPUTER SCIENCE AND TECHNOLOGY 38(4): 885−898 July 2023. DOI: 10.1007/s11390-022-1115-z.

Real-Time Underwater Image Enhancement Using Adaptive Full-Scale Retinex

  • Current Retinex-based image enhancement methods with fixed scale filters cannot adapt to situations involving various depths of field and illuminations. In this paper, a simple but effective method based on adaptive full-scale Retinex (AFSR) is proposed to clarify underwater images or videos. First, we design an adaptive full-scale filter that is guided by the optical transmission rate to estimate illumination components. Then, to reduce the computational complexity, we develop a quantitative mapping method instead of non-linear log functions for directly calculating the reflection component. The proposed method is capable of real-time processing of underwater videos using temporal coherence and Fourier transformations. Compared with eight state-of-the-art clarification methods, our method yields comparable or better results for image contrast enhancement, color-cast correction and clarity.
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