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Contrastive Feature Disentanglement via Physical Priors for Underwater Image Enhancement

Fei Li, Wan Li, Jiangbin Zheng, Lu Wang, Yue Xi

2025Remote Sensing12 citationsDOIOpen Access PDF

Abstract

Underwater image enhancement (UIE) serves as a fundamental preprocessing step in ocean remote sensing applications, encompassing marine life detection, archaeological surveying, and subsea resource exploration. However, UIE encounters substantial technical challenges due to the intricate physics of underwater light propagation and the inherent homogeneity of aquatic environments. Images captured underwater are significantly degraded through wavelength-dependent absorption and scattering processes, resulting in color distortion, contrast degradation, and illumination irregularities. To address these challenges, we propose a contrastive feature disentanglement network (CFD-Net) that systematically addresses underwater image degradation. Our framework employs a multi-stream decomposition architecture with three specialized decoders to disentangle the latent feature space into components associated with degradation and those representing high-quality features. We incorporate hierarchical contrastive learning mechanisms to establish clear relationships between standard and degraded feature spaces, emphasizing intra-layer similarity and inter-layer exclusivity. Through the synergistic utilization of internal feature consistency and cross-component distinctiveness, our framework achieves robust feature extraction without explicit supervision. Compared to existing methods, our approach achieves a 12% higher UIQM score on the EUVP dataset and outperforms other state-of-the-art techniques on various evaluation metrics such as UCIQE, MUSIQ, and NIQE, both quantitatively and qualitatively.

Topics & Concepts

Prior probabilityFeature (linguistics)UnderwaterComputer scienceArtificial intelligencePattern recognition (psychology)Image (mathematics)Remote sensingGeologyBayesian probabilityOceanographyLinguisticsPhilosophyImage Enhancement TechniquesImage and Signal Denoising MethodsAdvanced Image Processing Techniques