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Autori principali: Chen, Long, Huang, Yuzhi, Dong, Junyu, Xu, Qi, Kwong, Sam, Lu, Huimin, Lu, Huchuan, Li, Chongyi
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2410.05577
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author Chen, Long
Huang, Yuzhi
Dong, Junyu
Xu, Qi
Kwong, Sam
Lu, Huimin
Lu, Huchuan
Li, Chongyi
author_facet Chen, Long
Huang, Yuzhi
Dong, Junyu
Xu, Qi
Kwong, Sam
Lu, Huimin
Lu, Huchuan
Li, Chongyi
contents Underwater object detection (UOD), aiming to identify and localise the objects in underwater images or videos, presents significant challenges due to the optical distortion, water turbidity, and changing illumination in underwater scenes. In recent years, artificial intelligence (AI) based methods, especially deep learning methods, have shown promising performance in UOD. To further facilitate future advancements, we comprehensively study AI-based UOD. In this survey, we first categorise existing algorithms into traditional machine learning-based methods and deep learning-based methods, and summarise them by considering learning strategy, experimental dataset, utilised features or frameworks, and learning stage. Next, we discuss the potential challenges and suggest possible solutions and new directions. We also perform both quantitative and qualitative evaluations of mainstream algorithms across multiple benchmark datasets by considering the diverse and biased experimental setups. Finally, we introduce two off-the-shelf detection analysis tools, Diagnosis and TIDE, which well-examine the effects of object characteristics and various types of errors on detectors. These tools help identify the strengths and weaknesses of detectors, providing insigts for further improvement. The source codes, trained models, utilised datasets, detection results, and detection analysis tools are public available at \url{https://github.com/LongChenCV/UODReview}, and will be regularly updated.
format Preprint
id arxiv_https___arxiv_org_abs_2410_05577
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Underwater Object Detection in the Era of Artificial Intelligence: Current, Challenge, and Future
Chen, Long
Huang, Yuzhi
Dong, Junyu
Xu, Qi
Kwong, Sam
Lu, Huimin
Lu, Huchuan
Li, Chongyi
Computer Vision and Pattern Recognition
Underwater object detection (UOD), aiming to identify and localise the objects in underwater images or videos, presents significant challenges due to the optical distortion, water turbidity, and changing illumination in underwater scenes. In recent years, artificial intelligence (AI) based methods, especially deep learning methods, have shown promising performance in UOD. To further facilitate future advancements, we comprehensively study AI-based UOD. In this survey, we first categorise existing algorithms into traditional machine learning-based methods and deep learning-based methods, and summarise them by considering learning strategy, experimental dataset, utilised features or frameworks, and learning stage. Next, we discuss the potential challenges and suggest possible solutions and new directions. We also perform both quantitative and qualitative evaluations of mainstream algorithms across multiple benchmark datasets by considering the diverse and biased experimental setups. Finally, we introduce two off-the-shelf detection analysis tools, Diagnosis and TIDE, which well-examine the effects of object characteristics and various types of errors on detectors. These tools help identify the strengths and weaknesses of detectors, providing insigts for further improvement. The source codes, trained models, utilised datasets, detection results, and detection analysis tools are public available at \url{https://github.com/LongChenCV/UODReview}, and will be regularly updated.
title Underwater Object Detection in the Era of Artificial Intelligence: Current, Challenge, and Future
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2410.05577