UEAOD: Underwater Image Enhancement-Assisted Object Detection Guided by Frequency Decomposition and Physical Consistency

人工智能 计算机视觉 计算机科学 目标检测 水下 残余物 特征(语言学) 光辉 频域 稳健性(进化) 模式识别(心理学) 探测器 遥感 特征提取 图像分割 遥控水下航行器 合成孔径雷达 管道(软件) 高光谱成像 传感器融合 可视化 过程(计算) 迭代重建 RGB颜色模型 单眼 反向散射(电子邮件) 解耦(概率)
作者
Yuanyang Zhu,Guangjie Han,Hongbo Zhu,Hongmin Gao,Zhen Wang
出处
期刊:IEEE Transactions on Geoscience and Remote Sensing [Institute of Electrical and Electronics Engineers]
卷期号:64: 1-15 被引量:1
标识
DOI:10.1109/tgrs.2026.3660296
摘要

Underwater vision is central to marine robotics and ecological monitoring, yet turbidity, color cast, and backscatter degrade appearance and confound object boundaries. Existing enhancement–detection pipelines often optimize perceptual quality, keep the enhancement branch active during inference, and process features uniformly in the spatial domain, yielding residual artifacts, domain sensitivity, and nontrivial latency. We propose Underwater Enhancement-Assisted Object Detection (UEAOD), a lightweight detector that unifies frequency-aware factorization with physics-guided self-supervision. Specifically, a Fourier Frequency Decoupling Module adaptively splits each feature map into low- and high-frequency components using a learnable threshold optimized with a straight-through estimator. Building on this base–detail separation, a Contextual Dual-Stream Network compatible with the Path Aggregation Network refines the low-frequency base through a top-down path and consolidates high-frequency detail with content-aware upsampling. Then it performs clean feature fusion followed by detector-only bottom–up aggregation. A training-only enhancement head estimates background light, transmission, and clean radiance and enforces the Jaffe-McGlamery model via self-supervised reconstruction and guided refinement. This head is removed during inference. On RUOD, URPC2022, and RUIE-UHTS datasets, UEAOD improves mean average precision by 2–3% over a strong YOLOv12s baseline while preserving real-time throughput with a compact model size. These results indicate that explicit base–detail decomposition, coupled with physics-consistent supervision, yields domain-stable features and accurate, efficient underwater detection without incurring additional inference overhead. Source code: https://github.com/zhuyy116/UEAOD.
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