Loading [MathJax]/extensions/MathMenu.js
Fast Underwater Image Enhancement for Improved Visual Perception | IEEE Journals & Magazine | IEEE Xplore
Subscribe
ADVANCED SEARCH
Journals & Magazines >IEEE Robotics and Automation ... >Volume: 5 Issue: 2

Fast Underwater Image Enhancement for Improved Visual Perception

PDF
Md Jahidul Islam; Youya Xia; Junaed Sattar
All Authors

Abstract:

In this letter, we present a conditional generative adversarial network-based model for real-time underwater image enhancement. To supervise the adversarial training, we ...Show More

Metadata

Abstract:

In this letter, we present a conditional generative adversarial network-based model for real-time underwater image enhancement. To supervise the adversarial training, we formulate an objective function that evaluates the perceptual image quality based on its global content, color, local texture, and style information. We also present EUVP,a large-scale dataset of a paired and an unpaired collection of underwater images (of `poor' and `good' quality) that are captured using seven different cameras over various visibility conditions during oceanic explorations and human-robot collaborative experiments. In addition, we perform several qualitative and quantitative evaluations which suggest that the proposed model can learn to enhance underwater image quality from both paired and unpaired training. More importantly, the enhanced images provide improved performances of standard models for underwater object detection, human pose estimation, and saliency prediction. These results validate that it is suitable for real-time preprocessing in the autonomy pipeline by visually-guided underwater robots. The model and associated training pipelines are available athttps://github.com/xahidbuffon/funie-gan.
Published in: IEEE Robotics and Automation Letters ( Volume: 5, Issue: 2, April 2020)
Page(s): 3227 - 3234
Date of Publication: 18 February 2020

ISSN Information:

DOI: 10.1109/LRA.2020.2974710
Citations are not available for this document.
Contents

I. Introduction

Visually-guided AUVs (Autonomous Underwater Vehicles) and ROVs (Remotely Operated Vehicles) are widely used in important applications such as the monitoring of marine species migration and coral reefs [1], inspection of submarine cables and wreckage [2], underwater scene analysis, seabed mapping, human-robot collaboration [3], and more. One major operational challenge for these underwater robots is that despite using high-end cameras, visual sensing is often greatly affected by poor visibility, light refraction, absorption, and scattering [3]–[5]. These optical artifacts trigger non-linear distortions in the captured images, which severely affect the performance of vision-based tasks such as tracking, detection and classification, segmentation, and visual servoing. Fast and accurate image enhancement techniques can alleviate these problems by restoring the perceptual and statistical qualities [5], [6] of the distorted images in real-time.

Cites in Papers - |

Cites in Papers - IEEE (333)

Select All
1.
Yanling Zhang, Linxuan Luo, Pan Mu, Cong Bai, "Prompt-UIE: A Unified Prompt-Driven Framework for Underwater Image Enhancement", ICASSP 2025 - 2025 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), pp.1-5, 2025.
Show Article
Google Scholar
2.
Junbin Zhuang, Jiajia Zhou, Yan Zheng, Yasheng Chang, Suleman Mazhar, "Multi-domain fusion network for underwater image enhancement", ICASSP 2025 - 2025 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), pp.1-5, 2025.
Show Article
Google Scholar
3.
Qicong Wang, Xiaopin Zhong, Dajiang Lu, Yibin Tian, "ITW-DehazeFormer: Imaging through Turbid Water Using Improved DehazeFormer", ICASSP 2025 - 2025 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), pp.1-5, 2025.
Show Article
Google Scholar
4.
Xiaojiao Guo, Yihang Dong, Xuhang Chen, Weiwen Chen, Zimeng Li, FuChen Zheng, Chi-Man Pun, "Underwater Image Restoration via Polymorphic Large Kernel CNNs", ICASSP 2025 - 2025 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), pp.1-5, 2025.
Show Article
Google Scholar
5.
Shoubo Zhao, Jing Wang, Cheng Qian, Yue Yin, "The Research on Image Adaptive Block Compressive Sensing Method Based on Underwater Depth Information", IEEE Access, vol.13, pp.50450-50463, 2025.
Show Article
Google Scholar
6.
Yun Liang, Lianghui Li, Zihan Zhou, Lieyu Tian, Xinjie Xiao, Huan Zhang, "Underwater Image Enhancement via Adaptive Bi-Level Color-Based Adjustment", IEEE Transactions on Instrumentation and Measurement, vol.74, pp.1-16, 2025.
Show Article
Google Scholar
7.
Md Abu Bakr Siddique, Jiayi Wu, Ioannis Rekleitis, Md Jahidul Islam, "AquaFuse: Waterbody Fusion for Physics-Guided View Synthesis of Underwater Scenes", IEEE Robotics and Automation Letters, vol.10, no.5, pp.4316-4323, 2025.
Show Article
Google Scholar
8.
Herng-Hua Chang, Kuan-Yin Chen, "A Generative Adversarial Network with Attention Modules for Underwater Image Enhancement", 2025 International Conference on Artificial Intelligence in Information and Communication (ICAIIC), pp.0914-0919, 2025.
Show Article
Google Scholar
9.
Imran Djafar, Indrabayu, Syafruddin Syarif, "Development of A Deep Learning Hybrid Model for Classification of Plastic Waste Objects in the Coastal Environment", 2025 International Conference on Advancement in Data Science, E-learning and Information System (ICADEIS), pp.1-6, 2025.
Show Article
Google Scholar
10.
Mahmoud Elmezain, Lyes Saad Saoud, Atif Sultan, Mohamed Heshmat, Lakmal Seneviratne, Irfan Hussain, "Advancing Underwater Vision: A Survey of Deep Learning Models for Underwater Object Recognition and Tracking", IEEE Access, vol.13, pp.17830-17867, 2025.
Show Article
Google Scholar
11.
Ronit Misra, Sangini Trivedi, R.I Minu, "Deep Learning-Based Framework for Enhancing Underwater Visual Perception", 2025 International Conference on Multi-Agent Systems for Collaborative Intelligence (ICMSCI), pp.976-982, 2025.
Show Article
Google Scholar
12.
Xin Luan, Huijie Fan, Qiang Wang, Nan Yang, Shiben Liu, Xiaofeng Li, Yandong Tang, "FMambaIR: A Hybrid State-Space Model and Frequency Domain for Image Restoration", IEEE Transactions on Geoscience and Remote Sensing, vol.63, pp.1-14, 2025.
Show Article
Google Scholar
13.
Hao Wang, Kevin Köser, Peng Ren, "Large Foundation Model Empowered Discriminative Underwater Image Enhancement", IEEE Transactions on Geoscience and Remote Sensing, vol.63, pp.1-17, 2025.
Show Article
Google Scholar
14.
Yuhan Zhang, Jieyu Yuan, Zhanchuan Cai, "DCGF: Diffusion-Color-Guided Framework for Underwater Image Enhancement", IEEE Transactions on Geoscience and Remote Sensing, vol.63, pp.1-12, 2025.
Show Article
Google Scholar
15.
Wad Ghaban, Jawad Ahmad, Ali Akbar Siddique, Mohammad S. Alshehri, Anila Saghir, Faisal Saeed, Baraq Ghaleb, Mujeeb Ur Rehman, "Sustainable Environmental Monitoring: Multistage Fusion Algorithm for Remotely Sensed Underwater Super-Resolution Image Enhancement and Classification", IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, vol.18, pp.3640-3653, 2025.
Show Article
Google Scholar
16.
Yi Liu, Qiuping Jiang, Xinyi Wang, Ting Luo, Jingchun Zhou, "Underwater Image Enhancement With Cascaded Contrastive Learning", IEEE Transactions on Multimedia, vol.27, pp.1512-1525, 2025.
Show Article
Google Scholar
17.
Yan-Tsung Peng, Yen-Rong Chen, Guan-Rong Chen, Chun-Jung Liao, "Histoformer: Histogram-Based Transformer for Efficient Underwater Image Enhancement", IEEE Journal of Oceanic Engineering, vol.50, no.1, pp.164-177, 2025.
Show Article
Google Scholar
18.
Xianping Fu, Wenqiang Qin, Fengqi Li, Fengqiang Xu, Xiaohong Yan, "CFPNet: Complementary Feature Perception Network for Underwater Image Enhancement", IEEE Journal of Oceanic Engineering, vol.50, no.1, pp.150-163, 2025.
Show Article
Google Scholar
19.
Xueyong Li, Rui Yu, Weidong Zhang, Huimin Lu, Wenyi Zhao, Guojia Hou, Zheng Liang, "DAPNet: Dual Attention Probabilistic Network for Underwater Image Enhancement", IEEE Journal of Oceanic Engineering, vol.50, no.1, pp.178-191, 2025.
Show Article
Google Scholar
20.
Xueyan Ding, Yixin Sui, Jianxin Zhang, "Vector Quantized Underwater Image Enhancement With Transformers", IEEE Journal of Oceanic Engineering, vol.50, no.1, pp.136-149, 2025.
Show Article
Google Scholar
21.
Geonmo Yang, Younggun Cho, "TRIDENT: Efficient Triple-Task Learning of Dehazing, Depth, and Uncertainty Estimation for Underwater 3-D Robot Visual Perception", IEEE Sensors Journal, vol.25, no.1, pp.858-870, 2025.
Show Article
Google Scholar
22.
Zetian Mi, Shuaiyong Jiang, Yuanyuan Li, Huibing Wang, Xianping Fu, Zheng Liang, Peixian Zhuang, "A Vignetting-Correction-Based Underwater Image Enhancement Method for AUV With Artificial Light", IEEE Journal of Oceanic Engineering, vol.50, no.1, pp.213-227, 2025.
Show Article
Google Scholar
23.
Haisheng Xia, Binglei Bao, Fei Liao, Jintao Chen, Binglu Wang, Zhijun Li, "A Patch-Based Method for Underwater Image Enhancement With Denoising Diffusion Models", IEEE Transactions on Cybernetics, vol.55, no.1, pp.269-281, 2025.
Show Article
Google Scholar
24.
Jie Xu, Zhitong Huang, Wenmin Zhai, Hongcheng Qiu, Yi Gao, Yuefeng Ji, "Environment Semantics Aided Underwater Wireless Optical Semantic Communication", Journal of Lightwave Technology, vol.43, no.3, pp.1186-1202, 2025.
Show Article
Google Scholar
25.
Zheng Cheng, Guodong Fan, Jingchun Zhou, Min Gan, C. L. Philip Chen, "FDCE-Net: Underwater Image Enhancement With Embedding Frequency and Dual Color Encoder", IEEE Transactions on Circuits and Systems for Video Technology, vol.35, no.2, pp.1728-1744, 2025.
Show Article
Google Scholar
26.
Jiahua Li, Wentao Yang, Shishi Qiao, Zhaorui Gu, Bing Zheng, Haiyong Zheng, "Self-Supervised Marine Organism Detection From Underwater Images", IEEE Journal of Oceanic Engineering, vol.50, no.1, pp.120-135, 2025.
Show Article
Google Scholar
27.
Yuanyuan Li, Zetian Mi, Yulin Wang, Shuaiyong Jiang, Xianping Fu, "TAFormer: A Transmission-Aware Transformer for Underwater Image Enhancement", IEEE Transactions on Circuits and Systems for Video Technology, vol.35, no.1, pp.601-616, 2025.
Show Article
Google Scholar
28.
Ashutosh Kulkarni, Shruti S. Phutke, Santosh Kumar Vipparthi, Subrahmanyam Murala, "Multi-Medium Image Enhancement With Attentive Deformable Transformers", IEEE Transactions on Emerging Topics in Computational Intelligence, vol.9, no.2, pp.1659-1672, 2025.
Show Article
Google Scholar
29.
Junbin Zhuang, Yan Zheng, Baolong Guo, Yunyi Yan, "Globally Deformable Information Selection Transformer for Underwater Image Enhancement", IEEE Transactions on Circuits and Systems for Video Technology, vol.35, no.1, pp.19-32, 2025.
Show Article
Google Scholar
30.
Fei Liao, Binglei Bao, "Wearable System for Human Underwater Visual Enhancement", 2024 4th International Conference on Electronic Information Engineering and Computer Communication (EIECC), pp.92-98, 2024.
Show Article
Google Scholar

Cites in Papers - Other Publishers (407)

1.
Han Luo, Lu Han, Zhibin Yu, "UDUIE: Unpaired Domain-Irrelevant Underwater Image Enhancement", PRICAI 2024: Trends in Artificial Intelligence, vol.15284, pp.202, 2025.
CrossRef Google Scholar
2.
Yitong Jiang, Zhaoyang Zhang, Tianfan Xue, Jinwei Gu, "AutoDIR: Automatic All-in-One Image Restoration with\\xa0Latent Diffusion", Computer Vision – ECCV 2024, vol.15098, pp.340, 2025.
CrossRef Google Scholar
3.
Wei Song, Chengbing Liu, Mario Di Mauro, Antonio Liotta, "Unsupervised Underwater Image Enhancement Combining Imaging Restoration and Prompt Learning", Pattern Recognition and Computer Vision, vol.15032, pp.421, 2025.
CrossRef Google Scholar
4.
Opher Bar Nathan, Deborah Levy, Tali Treibitz, Dan Rosenbaum, "Osmosis: RGBD Diffusion Prior for\\xa0Underwater Image Restoration", Computer Vision – ECCV 2024, vol.15120, pp.302, 2025.
CrossRef Google Scholar
5.
Jing Yang, Shanbing Zhu, Hui Liang, Shumin Bai, Fengling Jiang, Amir Hussain, "PAFPT: Progressive aggregator with feature prompted transformer for underwater image enhancement", Expert Systems with Applications, vol.262, pp.125539, 2025.
CrossRef Google Scholar
6.
Dan Xiang, Zebin Zhou, Wenlei Yang, Huihua Wang, Pan Gao, Mingming Xiao, Jinwen Zhang, Xing Zhu, "A fusion framework with multi-scale convolution and triple-branch cascaded transformer for underwater image enhancement", Optics and Lasers in Engineering, vol.184, pp.108640, 2025.
CrossRef Google Scholar
7.
Yakun Ju, Jun Xiao, Cong Zhang, Hao Xie, Anwei Luo, Huiyu Zhou, Junyu Dong, Alex C. Kot, "Towards marine snow removal with fusing fourier information", Information Fusion, pp.102810, 2024.
CrossRef Google Scholar
8.
Ruidi Weng, Ya Zhang, Hanyang Wu, Weiyong Wang, Dongyun Wang, "The Retinex enhancement algorithm for low‐light intensity image based on improved illumination map", IET Image Processing, 2024.
CrossRef Google Scholar
9.
Zhixiong Huang, Jinjiang Li, Xinying Wang, Zhen Hua, Shenglan Liu, Lin Feng, "Underwater image enhancement via cross-wise transformer network focusing on pre-post differences", Applied Soft Computing, pp.112000, 2024.
CrossRef Google Scholar
10.
Jingyu Song, Haiyong Xu, Gangyi Jiang, Mei Yu, Yeyao Chen, Ting Luo, Yang Song, "Frequency domain-based latent diffusion model for underwater image enhancement", Pattern Recognition, pp.111198, 2024.
CrossRef Google Scholar
11.
Ruicheng Cao, Ruiteng Zhang, Xinyue Yan, Jian Zhang, "BG-YOLO: A Bidirectional-Guided Method for Underwater Object Detection", Sensors, vol.24, no.22, pp.7411, 2024.
CrossRef Google Scholar
12.
Jiangyan Wu, Guanghui Zhang, Yugang Fan, "LM-CycleGAN: Improving Underwater Image Quality Through Learned Perceptual Image Patch Similarity and Multi-Scale Adaptive Fusion Attention", Sensors, vol.24, no.23, pp.7425, 2024.
CrossRef Google Scholar
13.
欧阳 Ou Yang, 黄建峰 Huang Jianfeng, 袁容 Yuan Rong, "基于深度多先验学习的水下图像增强模型", Laser & Optoelectronics Progress, vol.61, no.22, pp.2237005, 2024.
CrossRef Google Scholar
14.
Da-Hua Li, Zong-Zheng Wang, Xuan Li, Xiao Yu, Qiang Gao, Qi Liu, "SGTL-SUIE: semantic attention-guided transfer learning method for stylization underwater image enhancement", Journal of Electronic Imaging, vol.33, no.05, 2024.
CrossRef Google Scholar
15.
Smitha Raveendran, Mukesh D. Patil, Gajanan K. Birajdar, "Underwater image quality enhancement using fusion of adaptive colour correction and improved contrast enhancement strategy", International Journal of Image and Data Fusion, pp.1, 2024.
CrossRef Google Scholar
16.
Zhongmin Zhang, Haisheng Zhao, Zexu Li, "Underwater image restoration using physical models with generative adversarial network and unified transformer framework", Journal of Electronic Imaging, vol.33, no.06, 2024.
CrossRef Google Scholar
17.
Xun Ji, Xu Wang, Li-Ying Hao, Cheng-Tao Cai, "CFENet: Cost-effective underwater image enhancement network via cascaded feature extraction", Engineering Applications of Artificial Intelligence, vol.133, pp.108561, 2024.
CrossRef Google Scholar
18.
Yang Zhou, Qinghua Su, Zhongbo Hu, Shaojie Jiang, "Underwater image enhancement method via extreme enhancement and ultimate weakening", Journal of Visual Communication and Image Representation, pp.104341, 2024.
CrossRef Google Scholar
19.
Shunsuke Takao, "Underwater image sharpening and color correction via dataset based on revised underwater image formation model", The Visual Computer, 2024.
CrossRef Google Scholar
20.
Zhen Li, Kaixiang Yan, Dongming Zhou, Changcheng Wang, Jiarui Quan, "A novel highland and freshwater-circumstance dataset: advancing underwater image enhancement", The Visual Computer, 2024.
CrossRef Google Scholar
21.
Jingyu Wu, Fuming Sun, Rui Xu, Mingyu Lu, Boyu Zhang, "Unsupervised image style transformation of generative adversarial networks based on cyclic consistency", Multimedia Systems, vol.30, no.6, 2024.
CrossRef Google Scholar
22.
Hafiz Shakeel Ahmad Awan, Muhammad Tariq Mahmood, "A Nonconvex Approach with Structural Priors for Restoring Underwater Images", Mathematics, vol.12, no.22, pp.3553, 2024.
CrossRef Google Scholar
23.
Qing Yu, Guojia Hou, Weidong Zhang, Baoxiang Huang, Zhenkuan Pan, "Contour and texture preservation underwater image restoration via low-rank regularizations", Expert Systems with Applications, pp.125549, 2024.
CrossRef Google Scholar
24.
Wei-Yen Hsu, Yu-Yu Hsu, "Multi-Scale and Multi-Layer Lattice Transformer for Underwater Image Enhancement", ACM Transactions on Multimedia Computing, Communications, and Applications, 2024.
CrossRef Google Scholar
25.
Zhijie Tang, Congqi Xu, Siyu Yan, "An adaptive interpolation and 3D reconstruction algorithm for underwater images", Machine Vision and Applications, vol.35, no.2, 2024.
CrossRef Google Scholar
26.
Ming Xu, Jinwei Cui, Xiaoyu Ma, Zhiyi Zou, Zhisheng Xin, Muhammad Bilal, "Image enhancement with art design: a visual feature approach with a CNN-transformer fusion model", PeerJ Computer Science, vol.10, pp.e2417, 2024.
CrossRef Google Scholar
27.
Salma González-Sabbagh, Antonio Robles-Kelly, Shang Gao, "Scene-cGAN: A GAN for underwater restoration and scene depth estimation", Computer Vision and Image Understanding, pp.104225, 2024.
CrossRef Google Scholar
28.
Muneeba Daud, Hammad Afzal, Khawir Mahmood, "Underwater image enhancement using lightweight vision transformer", Multimedia Tools and Applications, 2024.
CrossRef Google Scholar
29.
Chunyou Liu, Ping Qi, Zhibin Tang, "Global feature fusion generative adversarial network for underwater image enhancement", Electronics Letters, vol.60, no.22, 2024.
CrossRef Google Scholar
30.
Hongsheng Chen, Wenbin Zou, Hongxia Gao, Weipeng Yang, Shasha Huang, Jianliang Ma, "Joint Priors-Based Restoration Method for\xa0Degraded Images Under Medium Propagation", Pattern Recognition and Computer Vision, vol.14435, pp.339, 2024.
CrossRef Google Scholar
Contact IEEE to Subscribe
More Like This
A Workload Generator for Evaluating SMT Real-Time Systems

2018 International Conference on High Performance Computing & Simulation (HPCS)

Published: 2018

A train control system case study in model-based real time system design

Proceedings International Parallel and Distributed Processing Symposium

Published: 2003

Show More

References

References is not available for this document.

IEEE Account

Purchase Details

Profile Information

Need Help?

A not-for-profit organization, IEEE is the world's largest technical professional organization dedicated to advancing technology for the benefit of humanity.
© Copyright 2025 IEEE - All rights reserved. Use of this web site signifies your agreement to the terms and conditions.