[1] Wang H, Zhang Y, Shen H H et al. Review of image enhancement algorithms[J]. Chinese Optics, 10, 438-448(2017).
[2] Huang H X, Chen F H. Low-illumination image enhancement method based on attention mechanism and Retinex[J]. Laser & Optoelectronics Progress, 57, 201004(2020).
[3] Tumblin J, Agrawal A, Raskar R. Why I want a gradient camera[C], 103-110(2005).
[4] Soni B, Mathur P. An improved image dehazing technique using CLAHE and guided filter[C], 902-907(2020).
[5] Land E H, McCann J J. Lightness and Retinex theory[J]. Journal of the Optical Society of America, 61, 1-11(1971).
[6] Rahman Z, Jobson D J, Woodell G A. Multi-scale retinex for color image enhancement[C], 1003-1006(1996).
[7] Lin C, Zhou H F, Chen W. Gaussian pyramid transform Retinex image enhancement algorithm based on bilateral filtering[J]. Laser & Optoelectronics Progress, 57, 161019(2020).
[8] Fu X Y, Liao Y H, Zeng D L et al. A probabilistic method for image enhancement with simultaneous illumination and reflectance estimation[J]. IEEE Transactions on Image Processing, 24, 4965-4977(2015).
[9] Guo X J, Li Y, Ling H B. LIME: low-light image enhancement via illumination map estimation[J]. IEEE Transactions on Image Processing, 26, 982-993(2017).
[10] Wei C, Wang W J, Yang W H et al. Deep Retinex decomposition for low-light enhancement[EB/OL]. https://arxiv.org/abs/1808.04560
[11] Yu R S, Liu W Y, Qu Z et al. DeepExposure: learning to expose photos with asynchronously reinforced adversarial learning[C], 2153-2163(2018).
[12] He K M, Sun J, Tang X O. Single image haze removal using dark channel prior[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 33, 2341-2353(2011).
[13] Galdran A, Bria A, Alvarez-Gila A et al. On the duality between Retinex and image dehazing[C], 8212-8221(2018).
[14] Panagopoulos A, Wang C H, Samaras D et al. Estimating shadows with the bright channel cue[M]. Kutuakos K N. Trends and topics in computer vision, 6554, 1-12(2012).
[15] Mertens T, Kautz J, van Reeth F. Exposure fusion: a simple and practical alternative to high dynamic range photography[J]. Computer Graphics Forum, 28, 161-171(2009).
[16] Nada H, Sindagi V A, Zhang H et al. Pushing the limits of unconstrained face detection: a challenge dataset and baseline results[C], 18619869(2018).
[17] Lü F F, Lu F, Wu J H et al. MBLLEN: low-light image/video enhancement using CNNs[C], 220(2018).
[18] Mittal A, Soundararajan R, Bovik A C. Making a “completely blind” image quality analyzer[J]. IEEE Signal Processing Letters, 20, 209-212(2013).