Underwater image enhancement with zero-point symmetry prior and reciprocal mapping

IF 3.7 2区 工程技术 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Fei Li , Chang Liu , Xiaomao Li
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引用次数: 0

Abstract

Images captured underwater typically exhibit color distortion, low brightness, and pseudo-haze due to light absorption and scattering. These degradations limit underwater image display and analysis, and still challenge the performance of current methods. To overcome these drawbacks, we propose a targeted and systematic method. Specifically, based on a key observation and extensive statistical analysis, we develop a Zero-Point Symmetry Prior (ZPSP): the histograms of channels a and b in the Lab color space, for color-balanced images, exhibit a symmetry distribution around the zero-point. Guided by the ZPSP, a Color Histogram Symmetry (CHS) method is proposed to balance color differences between channels a and b by ensuring they adhere to ZPSP. For channel L, a Reciprocal Mapping (RM) method is proposed to remove pseudo-haze and improve brightness, by aligning its reflectance and illumination components with the Dark Channel Prior (DCP) and Bright Channel Prior (BCP), respectively. Relatedly, it employs a divide-and-conquer strategy, distinguishing underwater image degradations in decomposed sub-images and tackling them individually. Notably, the above-proposed methods are integrated into a systematic enhancement framework, while focusing on targeted optimization for each type of degradation. Benefiting from the proposed strategy and methods, various degradations are individually optimized and mutually promoted, consistently producing visually pleasing results. Comprehensive experiments demonstrate that the proposed method exhibits remarkable performance on various underwater image datasets and applications, also showing good generalization ability. The code is available at: https://github.com/CN-lifei/ZSRM.
利用零点对称先验和倒易映射进行水下图像增强
由于光的吸收和散射,水下拍摄的图像通常会出现色彩失真、亮度低和伪雾现象。这些劣化现象限制了水下图像的显示和分析,并对现有方法的性能提出了挑战。为了克服这些弊端,我们提出了一种有针对性的系统方法。具体来说,基于一个关键的观察结果和广泛的统计分析,我们开发了一种零点对称先验(ZPSP):对于色彩平衡的图像,Lab 色彩空间中通道 a 和 b 的直方图围绕零点呈现对称分布。在 ZPSP 的指导下,我们提出了一种色彩直方图对称(CHS)方法,通过确保通道 a 和 b 遵循 ZPSP 来平衡它们之间的色彩差异。对于通道 L,提出了一种互易映射(RM)方法,通过将其反射分量和光照分量分别与暗通道优先值(DCP)和亮通道优先值(BCP)对齐,来消除伪雾霾并提高亮度。与此相关的是,它采用了分而治之的策略,在分解的子图像中区分水下图像劣化情况,并分别加以解决。值得注意的是,上述提出的方法被整合到一个系统增强框架中,同时针对每种退化类型进行有针对性的优化。得益于所提出的策略和方法,各种降解都得到了单独优化和相互促进,从而不断产生令人愉悦的视觉效果。综合实验证明,所提出的方法在各种水下图像数据集和应用中表现出了卓越的性能,同时也显示出了良好的泛化能力。代码见:https://github.com/CN-lifei/ZSRM。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Displays
Displays 工程技术-工程:电子与电气
CiteScore
4.60
自引率
25.60%
发文量
138
审稿时长
92 days
期刊介绍: Displays is the international journal covering the research and development of display technology, its effective presentation and perception of information, and applications and systems including display-human interface. Technical papers on practical developments in Displays technology provide an effective channel to promote greater understanding and cross-fertilization across the diverse disciplines of the Displays community. Original research papers solving ergonomics issues at the display-human interface advance effective presentation of information. Tutorial papers covering fundamentals intended for display technologies and human factor engineers new to the field will also occasionally featured.
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