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    Journals >Laser & Optoelectronics Progress >Volume 61 >Issue 18 >Page 1837001 > Article
    • Laser & Optoelectronics Progress
    • Vol. 61, Issue 18, 1837001 (2024)
    Detail-Preserving Multi-Exposure Image Fusion Based on Adaptive Weight
    Ruihong Wen1,2,3, Chunyu Liu1,3,*, Shuai Liu1,3, Meili Zhou1,3, and Yuxin Zhang1,3
    Author Affiliations
  • 1Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, Jilin, China
  • 2University of Chinese Academy of Sciences, Beijing 100049, China
  • 3Key Laboratory of Space-based Dynamic & Rapid Optical Imaging Technology, Chinese Academy of Sciences,Changchun 130033, Jilin, China
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    DOI: 10.3788/LOP232552 Cite this Article Set citation alerts
    Ruihong Wen, Chunyu Liu, Shuai Liu, Meili Zhou, Yuxin Zhang. Detail-Preserving Multi-Exposure Image Fusion Based on Adaptive Weight[J]. Laser & Optoelectronics Progress, 2024, 61(18): 1837001 Copy Citation Text show less
    References

    [1] Dun X, Fu Q, Li H T et al. Recent progress in computational imaging[J]. Journal of Image and Graphics, 27, 1840-1876(2022).

    [2] Liu H. Study on high dynamic range CMOS image sensor technique[D], 8-16(2009).

    [3] Lü W Z, Liu W Q, Wei Z L et al. Design of high dynamic range imaging optical system based on DMD[J]. Infrared and Laser Engineering, 43, 1167-1171(2014).

    [4] Zhang X C. Benchmarking and comparing multi-exposure image fusion algorithms[J]. Information Fusion, 74, 111-131(2021).

    [5] 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).

    [6] Li H, Zhang L. Multi-exposure fusion with CNN features[C], 1723-1727(2018).

    [7] Ma K D, Li H, Yong H W et al. Robust multi-exposure image fusion: a structural patch decomposition approach[J]. IEEE Transactions on Image Processing, 26, 2519-2532(2017).

    [8] Ma K D, Duanmu Z F, Yeganeh H et al. Multi-exposure image fusion by optimizing A structural similarity index[J]. IEEE Transactions on Computational Imaging, 4, 60-72(2018).

    [9] Paul S, Sevcenco I S, Agathoklis P. Multi-exposure and multi-focus image fusion in gradient domain[J]. Journal of Circuits, Systems and Computers, 25, 1650123(2016).

    [10] Li S T, Kang X D, Hu J W. Image fusion with guided filtering[J]. IEEE Transactions on Image Processing, 22, 2864-2875(2013).

    [11] Lee S H, Park J S, Cho N I. A multi-exposure image fusion based on the adaptive weights reflecting the relative pixel intensity and global gradient[C], 1737-1741(2018).

    [12] Hou X L, Luo H B, Zhou P P. Multi-exposure control method based on maximum local information entropy[J]. Infrared and Laser Engineering, 46, 0726001(2017).

    [13] He K M, Sun J, Tang X O. Guided image filtering[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 35, 1397-1409(2013).

    [14] Chen B, Tan X C, Wu S Q. Overall detail-enhanced multi-exposure images fusion[J]. Journal of Image and Graphics, 27, 1632-1644(2022).

    [15] Zhu X L, Zhang Y S, Fang Y Q et al. Review of multi-exposure image fusion methods[J]. Laser & Optoelectronics Progress, 60, 2200003(2023).

    [16] Ma K D, Zeng K, Wang Z. Perceptual quality assessment for multi-exposure image fusion[J]. IEEE Transactions on Image Processing, 24, 3345-3356(2015).

    [17] Li H, Ma K D, Yong H W et al. Fast multi-scale structural patch decomposition for multi-exposure image fusion[J]. IEEE Transactions on Image Processing, 29, 5805-5816(2020).

    [18] Qi G Q, Chang L, Luo Y Q et al. A precise multi-exposure image fusion method based on low-level features[J]. Sensors, 20, 1597(2020).

    [19] Ulucan O, Karakaya D, Turkan M. Multi-exposure image fusion based on linear embeddings and watershed masking[J]. Signal Processing, 178, 107791(2021).

    [20] Li H, Chan T N, Qi X B et al. Detail-preserving multi-exposure fusion with edge-preserving structural patch decomposition[J]. IEEE Transactions on Circuits and Systems for Video Technology, 31, 4293-4304(2021).

    [21] Karakaya D, Ulucan O, Turkan M. Pas-mef: multi-exposure image fusion based on principal component analysis, adaptive well-exposedness and saliency map[C], 2345-2349(2022).

    [22] Bulanon D M, Burks T F, Alchanatis V. Image fusion of visible and thermal images for fruit detection[J]. Biosystems Engineering, 103, 12-22(2009).

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    Ruihong Wen, Chunyu Liu, Shuai Liu, Meili Zhou, Yuxin Zhang. Detail-Preserving Multi-Exposure Image Fusion Based on Adaptive Weight[J]. Laser & Optoelectronics Progress, 2024, 61(18): 1837001
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