Learning mapping by curve iteration estimation For real-time underwater image enhancement

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-03-05 DOI:10.1364/oe.512397
Junting Wang, Xiufen Ye, Yusong Liu, Xinkui Mei, and Xing Wei
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Abstract

The degradation and attenuation of light in underwater images impose constraints on underwater vision tasks. However, the complexity and the low real-time performance of most current image enhancement algorithms make them challenging in practical applications. To address the above issues, we propose a new lightweight framework for underwater image enhancement. We adopt the curve estimation to learn the mapping between images rather than end-to-end networks, which greatly reduces the requirement for computing resources. Firstly, a designed iterative curve with parameters is used to simulate the mapping from the raw to the enhanced image. Then, the parameters of this curve are learned with a parameter estimation network called CieNet and a set of loss functions. Experimental results demonstrate that our proposed method is superior to existing algorithms in terms of evaluating indexes and visual perception quality. Furthermore, our highly lightweight network enables it to be easily integrated into small devices, making it highly applicable. The extremely short running-time of our method facilitates real-time underwater image enhancement.
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通过曲线迭代估算学习映射 用于实时水下图像增强
水下图像中光的衰减和衰减对水下视觉任务造成了限制。然而,目前大多数图像增强算法的复杂性和低实时性使其在实际应用中面临挑战。针对上述问题,我们提出了一种新的轻量级水下图像增强框架。我们采用曲线估计来学习图像之间的映射,而不是端到端网络,这大大降低了对计算资源的要求。首先,设计一条带参数的迭代曲线来模拟从原始图像到增强图像的映射。然后,利用名为 CieNet 的参数估计网络和一组损失函数来学习该曲线的参数。实验结果表明,我们提出的方法在评估指标和视觉感知质量方面优于现有算法。此外,我们的网络非常轻便,可以轻松集成到小型设备中,因此非常适用。我们的方法运行时间极短,有利于实时水下图像增强。
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CiteScore
7.20
自引率
4.30%
发文量
567
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