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Journal of Applied Optics, Volume. 45, Issue 5, 937(2024)

General progressive unsupervised image enhancement method focusing on value aware

Aiguo ZHOU1, Jilin ZHAO1、*, Shan AN2, and Changhong FU1
Author Affiliations
  • 1School of Mechanical Engineering, Tongji University, Shanghai 201804, China
  • 2Beijing Jingdong Tuoxian Technology Co.,Ltd., Beijing 100176, China
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    [1] ZUIDERVELD K. Contrast limited adaptive histogram equalization[J]. Graphics Gems IV, 474-485.(1994).

    [2] PIZER S M, AMBURN E P, AUSTIN J D et al. Adaptive histogram equalization and its variations[J]. Computer Vision, Graphics, and Image Processing, 39, 355-368(1987).

    [3] REZA A M. Realization of the contrast limited adaptive histogram equalization (clahe) for real-time image enhancement[J]. Journal of VLSI Signal Processing Systems for Signal, Image and Video Technology, 38, 35-44(2004).

    [4] PELI E. Contrast in complex images[J]. Journal of the Optical Society of America A, Optics Image Science, 7, 2032-2040(1990).

    [5] NACCARI F, BATTIATO S, BRUNA A et al. Natural scenes enhancement by adaptive color correction[C], 320-323(2004).

    [6] XU Xinggui, YANG Runhua, RAN Bing et al. Remote object image enhancement of fusion Retinex anddiscrete wavelet singular value decomposition[J]. Journal of Applied Optics, 42, 656-663(2021).

    [7] WEI Chen, WANG Wenjing, YANG Wenhan et al. Deep retinex decomposition for low-light enhancement[C], 127-136(2018:).

    [8] BYCHKOVSKY V, PARIS S, CHAN E et al. Learning photographic global tonal adjustment with a database of input/output image pairs[C], 97-104(2011).

    [9] ZENG H, CAI J R, LI L D et al. Learning image-adaptive 3d lookup tables for high performance photo enhancement in real-time[J]. IEEE Transactions on Pattern Analysis & Machine Intelligence, 44, 2058-2073(2020).

    [10] JIANG Y F, GONG X Y, LIU D et al. Enlightengan: deep light enhancement without paired supervision[J]. IEEE Transactions on Image Processing, 30, 2340-2349(2021).

    [11] GUO C L, LI C Y, GUO J C et al. Zero-reference deep curve estimation for low-light image enhancement[C], 1780-1789(2020).

    [12] LI C Y, GUO C L, LOY C C. Learning to enhance low-light image via zero-reference deep curve estimation[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 44, 4225-4238(2021).

    [13] GAO Kaijun, SUN Shaoyuan, YAO Guangshun et al. Semantic segmentation of night vision images for unmanned vehicles based on deep learning[J]. Journal of Applied Optics, 38, 421-428(2017).

    [14] YE J J, FU C H, ZHENG G Z et al. Darklighter: light up the darkness for UAV tracking[C], 3079-3085(2021).

    [15] PEI Jiaxin, SUN Shaoyuan, WANG Yulan et al. Nighttime environment perception of driverless vehicles based on improved YOLOv3 network[J]. Journal of Applied Optics, 40, 380-386(2019).

    [16] WANG Yulan, SUN Shaoyuan, LIU Zhiyi et al. Nighttime three-dimensional target detection of driverless vehicles based on multi-view channel fusion network[J]. Journal of Applied Optics, 41, 296-301(2020).

    [17] MIAO Delin, LIU Lei, MO Yongchao et al. Nighttime low-light image enhancement and object detection based on knowledge distillation[J]. Journal of Applied Optics, 44, 1037-1044(2023).

    [18] RUDIN L I, OSHER S, FATEMI E. Nonlinear total variation based noise removal algorithms[J]. Physica D, 60, 259-268(1992).

    [19] CAI J R, GU S H, ZHANG L. Learning a deep single image contrast enhancer from multi-exposure images[J]. IEEE Transactions on Image Processing, 27, 2049-2062(2018).

    [20] KINGMA D P, BA J. Adam: a method for stochastic optimization[EB/OL]. http://arxiv.org/abs/1412.6980v6

    [21] LIU R S, MA L, ZHANG J et al. Retinex-inspired unrolling with cooperative prior architecture search for low-light image enhancement[C], 10561-10570(2021).

    [22] MA L, MA T Y, LIU R S et al. Toward fast, flexible, and robust low-light image enhancement[C], 5637-5646(2022).

    [23] ZHU A, ZHANG L, SHEN Y et al. Zero-shot restoration of underexposed images via robust retinex decomposition[C], 1-6(2020).

    [24] 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).

    [25] ZHOU W, BOVIK A C, SHEIKH H R et al. Image quality assessment: from error visibility to structural similarity[J]. IEEE Transactions on Image Processing, 13, 600-612(2004).

    [26] LI B W, FU C H, DING F Q et al. All-day object tracking for unmanned aerial vehicle[J]. IEEE Transactions on Mobile Computing, 22, 4515-4529(2023).

    [27] FU C H, CAO Z A, LI Y M et al. Siamese anchor proposal network for high-speed aerial tracking[C], 510-516(2021).

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    Aiguo ZHOU, Jilin ZHAO, Shan AN, Changhong FU. General progressive unsupervised image enhancement method focusing on value aware[J]. Journal of Applied Optics, 2024, 45(5): 937

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    Paper Information

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    Received: Mar. 26, 2024

    Accepted: --

    Published Online: Dec. 20, 2024

    The Author Email: Jilin ZHAO (符长虹)

    DOI:10.5768/JAO202445.0502001

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology