Zhang Weidong, Zhuang Peixian, Sun Haihan, Li Guohou, Kwong Sam, Li Chongyi
IEEE Trans Image Process. 2022 Jun 3;PP. doi: 10.1109/TIP.2022.3177129.
Underwater images typically suffer from color deviations and low visibility due to the wavelength-dependent light absorption and scattering. To deal with these degradation issues, we propose an efficient and robust underwater image enhancement method, called MLLE. Specifically, we first locally adjust the color and details of an input image according to a minimum color loss principle and a maximum attenuation map-guided fusion strategy. Afterward, we employ the integral and squared integral maps to compute the mean and variance of local image blocks, which are used to adaptively adjust the contrast of the input image. Meanwhile, a color balance strategy is introduced to balance the color differences between channel a and channel b in the CIELAB color space. Our enhanced results are characterized by vivid color, improved contrast, and enhanced details. Extensive experiments on three underwater image enhancement datasets demonstrate that our method outperforms the state-of-the-art methods. Our method is also appealing in its fast processing speed within 1s for processing an image of size 1024×1024×3 on a single CPU. Experiments further suggest that our method can effectively improve the performance of underwater image segmentation, keypoint detection, and saliency detection. The project page is available at https://li-chongyi.github.io/proj_MMLE.html.
由于与波长相关的光吸收和散射,水下图像通常会出现颜色偏差和能见度低的问题。为了解决这些退化问题,我们提出了一种高效且鲁棒的水下图像增强方法,称为MLLE。具体而言,我们首先根据最小颜色损失原则和最大衰减图引导融合策略对输入图像的颜色和细节进行局部调整。之后,我们使用积分图和平方积分图来计算局部图像块的均值和方差,用于自适应调整输入图像的对比度。同时,引入一种颜色平衡策略来平衡CIELAB颜色空间中通道a和通道b之间的颜色差异。我们的增强结果具有色彩鲜艳、对比度提高和细节增强的特点。在三个水下图像增强数据集上进行的大量实验表明,我们的方法优于现有方法。我们的方法在单CPU上处理大小为1024×1024×3的图像时,处理速度快于1秒,这也很有吸引力。实验进一步表明,我们的方法可以有效提高水下图像分割、关键点检测和显著性检测的性能。项目页面可在https://li-chongyi.github.io/proj_MMLE.html获取。
