Chunle Guo scite author profile

Underwater image enhancement has been attracting much attention due to its significance in marine engineering and aquatic robotics. Numerous underwater image enhancement algorithms have been proposed in the last few years. However, these algorithms are mainly evaluated using either synthetic datasets or few selected real-world images. It is thus unclear how these algorithms would perform on images acquired in the wild and how we could gauge the progress in the field. To bridge this gap, we present the first comprehensive perceptual study and analysis of underwater image enhancement using large-scale real-world images. In this paper, we construct an Underwater Image Enhancement Benchmark (UIEB) including 950 realworld underwater images, 890 of which have the corresponding reference images. We treat the rest 60 underwater images which cannot obtain satisfactory reference images as challenging data. Using this dataset, we conduct a comprehensive study of the stateof-the-art underwater image enhancement algorithms qualitatively and quantitatively. In addition, we propose an underwater image enhancement network (called Water-Net) trained on this benchmark as a baseline, which indicates the generalization of the proposed UIEB for training Convolutional Neural Networks (CNNs). The benchmark evaluations and the proposed Water-Net demonstrate the performance and limitations of state-of-the-art algorithms, which shed light on future research in underwater image enhancement. The dataset and code are available at https://li-chongyi.github.io/proj benchmark.html.

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Emerging From Water: Underwater Image Color Correction Based on Weakly Supervised Color Transfer

Guo

2018

IEEE Signal Process. Lett.

395

173

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Abstract-Underwater vision suffers from severe effects due to selective attenuation and scattering when light propagates through water. Such degradation not only affects the quality of underwater images but limits the ability of vision tasks. Different from existing methods which either ignore the wavelength dependency of the attenuation or assume a specific spectral profile, we tackle color distortion problem of underwater image from a new view. In this letter, we propose a weakly supervised color transfer method to correct color distortion, which relaxes the need of paired underwater images for training and allows for the underwater images unknown where were taken. Inspired by Cycle-Consistent Adversarial Networks, we design a multiterm loss function including adversarial loss, cycle consistency loss, and SSIM (Structural Similarity Index Measure) loss, which allows the content and structure of the corrected result the same as the input, but the color as if the image was taken without the water. Experiments on underwater images captured under diverse scenes show that our method produces visually pleasing results, even outperforms the art-of-the-state methods. Besides, our method can improve the performance of vision tasks.

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Underwater Image Enhancement via Medium Transmission-Guided Multi-Color Space Embedding

Anwar

Hou

et al. 2021

IEEE Trans. on Image Process.

354

160

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Learning to Enhance Low-Light Image via Zero-Reference Deep Curve Estimation

Li¹,

Guo

Chen

2021

IEEE Trans. Pattern Anal. Mach. Intell.

206

131

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Hierarchical Features Driven Residual Learning for Depth Map Super-Resolution

Guo

et al. 2019

IEEE Trans. on Image Process.

164

116

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Low-Light Image and Video Enhancement Using Deep Learning: A Survey

Guo

Han

et al. 2022

IEEE Trans. Pattern Anal. Mach. Intell.

215

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A hybrid method for underwater image correction

Guo

et al. 2017

Pattern Recognition Letters

157

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Chunle Guo

Zero-Reference Deep Curve Estimation for Low-Light Image Enhancement

An Underwater Image Enhancement Benchmark Dataset and Beyond

Emerging From Water: Underwater Image Color Correction Based on Weakly Supervised Color Transfer

Underwater Image Enhancement via Medium Transmission-Guided Multi-Color Space Embedding

Learning to Enhance Low-Light Image via Zero-Reference Deep Curve Estimation

Hierarchical Features Driven Residual Learning for Depth Map Super-Resolution

Low-Light Image and Video Enhancement Using Deep Learning: A Survey

A hybrid method for underwater image correction

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