Low-Illumination Image Enhancement Using Local Gradient Relative Deviation for Retinex Models

doi:10.3390/rs15174327

CIOMP OpenIR

	Low-Illumination Image Enhancement Using Local Gradient Relative Deviation for Retinex Models
	B. Yang, L. Zheng, X. Wu, T. Gao and X. Chen
	2023
发表期刊	Remote Sensing
ISSN	20724292
卷号	15 期号:17
摘要	In order to obtain high-quality images, the application of low-illumination image enhancement techniques plays a vital role in enhancing the overall visual appeal. However, it is particularly difficult to enhance an image while maintaining the original information of the scene. The augmentation method based on Retinex theory is widely considered as one of the representative techniques for such problems, but this method still has some limitations. First of all, noise is easily ignored in the process of model building, and the robustness of the model needs to be improved. Secondly, the image decomposition is less effective, so that part of the image information is not effectively presented. Finally, the optimization procedure is computationally complicated. This paper introduces a novel approach for enhancing low-illumination images by utilizing the relative deviation of local gradients. The proposed method aims to address the challenges associated with low-illumination images and offers a solution to these issues. In this paper, local gradient relative deviation is used as a constraint term and a noise term is added to highlight the image texture and structure and improve the robustness of the models, considering that (Formula presented.) achieves piecewise smoothing with better sparsity compared to the sum norm commonly used by (Formula presented.) and (Formula presented.) norms. In this paper, the (Formula presented.) norm is used to constrain the model, which smooths the illumination component and better preserves the details of the reflectance component. In addition, to efficiently solve the optimization problem, the alternating direction multiplier method is chosen to transform the optimization process into the solution of several sub-problems. In comparison to traditional Retinex models, the proposed method excels in its ability to simultaneously enhance the image and suppress noise effectively. The experimental outcomes demonstrate the effectiveness of the proposed model in enhancing both simulated and real data. This approach can be applied to low-illumination remote sensing images to obtain high-quality remote sensing image data. © 2023 by the authors.
DOI	10.3390/rs15174327
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收录类别	sci ; ei
引用统计
文献类型	期刊论文
条目标识符	http://ir.ciomp.ac.cn/handle/181722/68079
专题	中国科学院长春光学精密机械与物理研究所
推荐引用方式 GB/T 7714	B. Yang, L. Zheng, X. Wu, T. Gao and X. Chen. Low-Illumination Image Enhancement Using Local Gradient Relative Deviation for Retinex Models[J]. Remote Sensing,2023,15(17).
APA	B. Yang, L. Zheng, X. Wu, T. Gao and X. Chen.(2023).Low-Illumination Image Enhancement Using Local Gradient Relative Deviation for Retinex Models.Remote Sensing,15(17).
MLA	B. Yang, L. Zheng, X. Wu, T. Gao and X. Chen."Low-Illumination Image Enhancement Using Local Gradient Relative Deviation for Retinex Models".Remote Sensing 15.17(2023).

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