Computer Science ›› 2026, Vol. 53 ›› Issue (7): 62-70.doi: 10.11896/jsjkx.250400138
• Computer Graphics & Multimedia • Previous Articles Next Articles
JIAO Hanbing1, KANG Junhua1, XIAO Teng2,3, DENG Fei4
CLC Number:
| [1]LYU Z W,NIU H J,SUN F Y et al.Review of Research on Low-Light Image Enhancement Algorithms[J].Infrared Technology,2025,47(2):165-178. [2]LAND E H.The retinex theory of color vision[J].Scientific American,1977,237(6):108-129. [3]LIU S G,ZHANG Y.Detail-preserving underexposed image enhancement via optimal weighted multi-exposure fusion[J].IEEE Transactions on Consumer Electronics,2019,65(3):303-311. [4]VASWANI A,SHAZEER N,PARMAR N,et al.Attention isall you need[C]//Proceedings of the 31st International Confe-rence on Neural Information Processing Systems.2017:6000-6010. [5]XU X,WANG R,FU C W,et al.Snr-aware low-light image enhancement[C]//Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition.2022:17714-17724. [6]CAI Y,BIAN H,LIN J,et al.Retinexformer:One-stage retinex-based transformer for low-light image enhancement[C]//Proceedings of the IEEE/CVF International Conference on Computer Vision.2023:12504-12513. [7]ABDULLAH-AL-WADUD M,KABIR M H,DEWAN M A A,et al.A dynamic histogram equalization for image contrast enhancement[J].IEEE Transactions on Consumer Electronics,2007,53(2):593-600. [8]CELIK T,TJAHJADI T.Contextual and variational contrastenhancement[J].IEEE Transactions on Image Processing,2011,20(12):3431-3441. [9]LI S,KANG X.Fast multi-exposure image fusion with median filter and recursive filter[J].IEEE Transactions on Consumer Electronics,2012,58(2):626-632. [10]HUANG S C,CHENG F C,CHIU Y S.Efficient contrast enhancement using adaptive gamma correction with weighting distribution[J].IEEE Transactions on Image Processing,2012,22(3):1032-1041. [11]LIU Y,JIA X F.Low-light image enhancement algorithm in-tegrating residual structure and attention mechanism[J].Journal of Chongqing Technology and Business University(Natural Science Edition),2024(4):86-96. [12]GUO X J,LI Y,LING H.LIME:Low-light image enhancement via illumination map estimation[J].IEEE Transactions on Image Processing,2017,26:982-993. [13]WANG D W,ZHAO W L,FANG J,et al.Low-light image en-hancement algorithm for UAV aerial photography base on low-light instances[J/OL].Journal of Beijing University of Aeronautics and Astronautics.DOI:10.13700/j.bh.1001-5965.2024.0531. [14]WEI C,WANG W,YANG W,et al.Deep retinex decomposition for low-light enhancement[C]//Proceedings of the British Machine Vision Conference(BMVC).2018:1-12. [15]ZHANG Y H,GUO X J,MA J Y,et al.Beyond brightening low-light images[J].International Journal of Computer Vision,2021,129(4):1013-1037. [16]ZHANG Y,ZHANG J,GUO X.Kindling the darkness:A practical low-light image enhancer[C]//Proceedings of the 27th ACM International Conference on Multimedia.New York:ACM,2019:1632-1640. [17]ZHAO L,LU S P,CHEN T,et al.Deep symmetric network for underexposed image enhancement with recurrent attentional learning[C]//Proceedings of the IEEE/CVF International Conference on Computer Vision.Piscataway,NJ:IEEE,2021:12075-12084. [18]WANG R,ZHANG Q,FU C W,et al.Underexposed photo enhancement using deep illumination estimation[C]//Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition.2019:6849-6857. [19]ZHANG Z,JIANGY,JIANG J,et al.STAR:A structure-aware lightweight transformer for real-time image enhancement[C]//Proceedings of the IEEE/CVF International Conference on Computer Vision.Piscataway,NJ:IEEE,2021:4106-4115. [20]LIU B,TIAN G L,XIAO B,et al.Low Light Image Enhancement With Adaptive Light Initialization[J].Journal of Electro-nics & Information Technology,2024,46(2):643-651. [21]HU J,SHEN L,SUN G.Squeeze-and-excitation networks[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition.Piscataway,NJ:IEEE,2018:7132-7141. [22]BRATEANU A,BALMEZ R,AVRAM A,et al.LYT-Net:Lightweight YUV transformer-based network for low-light image enhancement[J].IEEE Signal Processing Letters,2025,32:2065-2069. [23]WEI C,WANG W,YANG W,et al.Deep retinex decomposition for low-lightenhancement[J].arXiv:1808.04560,2018. [24]YANG W,WANG W,HUANG H,et al.Sparse gradient regularized deep retinex networkfor robust low-light image enhancement[J].IEEE Transactions on Image Processing,2021,30:2072-2086. [25]ROS G,SELLART L,MATERZYNSKA J,et al.The synthia dataset:A large collection of synthetic images for semantic segmentation of urban scenes[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition.2016:3234-3243. [26]PASZKE A.Pytorch:An imperative style,high-performancedeep learning library[J].arXiv:1912.01703,2019. [27]KINGMA D P,BA J.Adam:A method for stochastic optimization[J].arXiv:1412.6980,2014. [28]LOSHCHILOV I,HUTTER F.Sgdr:Stochastic gradient de-scent with warm restarts[J].arXiv:1608.03983,2016. [29]WANG Z,BOVIK A C,SHEIKH H R,et al.Image quality assessment:from error visibility to structural similarity[J].IEEE Transactions on Image Processing,2004,13(4):600-612. [30]SUN F Y,LYU Z,LYU Z W.Review of low light image enhancement based on deep learning [J].Application Research of Computers,2025,42(1):19-27. [31]YANG W,WANG S,FANG Y,et al.Band representation-based semi-supervised low-light image enhancement:Bridging the gap between signal fidelity and perceptual quality[J].IEEE Transactions on Image Processing,2021,30:3461-3473. [32]ZAMIR S W,ARORA A,KHAN S,et al.Restormer:Efficient transformer for high-resolution image restoration[C]//Procee-dings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition.2022:5728-5739. [33]CUI Z T,LI K C,GU L,et al.You only need 90K parameters to adapt light:A light weight transformer for image enhancement and exposure correction[C]//Proceedings of the 33rd British Machine Vision Conference.2022:1-12. [34]WANG T,ZHANG K,SHEN T,et al.Ultra-high-definitionlow-light image enhancement:A benchmark and transformer-based method[C]//Proceedings of the AAAI Conference on Artificial Intelligence.2023:2654-2662. [35]LI C,GUO C L,ZHOU M,et al.Embedding fourier for ultra-high-definition low-light image enhancement[J].arXiv:2302.11831,2023. [36]TAN J,PEI S,QIN W,et al.Wavelet-based Mamba with Fourier Adjustment for Low-light Image Enhancement[C]//Proceedings of the Asian Conference on Computer Vision.2024:3449-3464 [37]ZAMIR S W,ARORA A,KHAN S,et al.Learning enriched features for real image restoration and enhancement[C]//Compu-ter Vision-ECCV 2020:16th European Conference.Springer,2020:492-511. [38]XU G,WANG X,ZHANG Z,et al.IGEV++:Iterative multi-range geometry encoding volumes for stereo matching[J].IEEE Transactions on Pattern Analysis and Machine Intelligence,2025,47(8):7108-7122. |
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