Deep Retinex Decomposition for Low-Light Enhancement

颜色恒定性 轻巧 计算机科学 人工智能 平滑度 反射(计算机编程) 反射率 降噪 计算机视觉 图像增强 图像(数学) 分解 数学 光学 物理 数学分析 生物 程序设计语言 生态学
作者
Wei Chen,Wenjing Wang,Wenhan Yang,Jiaying Liu
出处
期刊:Cornell University - arXiv [Cornell University]
卷期号:: 155- 被引量:198
摘要

Retinex model is an effective tool for low-light image enhancement. It assumes that observed images can be decomposed into the reflectance and illumination. Most existing Retinex-based methods have carefully designed hand-crafted constraints and parameters for this highly ill-posed decomposition, which may be limited by model capacity when applied in various scenes. In this paper, we collect a LOw-Light dataset (LOL) containing low/normal-light image pairs and propose a deep Retinex-Net learned on this dataset, including a Decom-Net for decomposition and an Enhance-Net for illumination adjustment. In the training process for Decom-Net, there is no ground truth of decomposed reflectance and illumination. The network is learned with only key constraints including the consistent reflectance shared by paired low/normal-light images, and the smoothness of illumination. Based on the decomposition, subsequent lightness enhancement is conducted on illumination by an enhancement network called Enhance-Net, and for joint denoising there is a denoising operation on reflectance. The Retinex-Net is end-to-end trainable, so that the learned decomposition is by nature good for lightness adjustment. Extensive experiments demonstrate that our method not only achieves visually pleasing quality for low-light enhancement but also provides a good representation of image decomposition.

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