[1] S Popoff, G Lerosey, R Carminati, et al. Measuring the transmission matrix in optics: an approach to the study and control of light propagation in disordered media. Physical Review Letters, 104, 100601(2010).

[2] Shanshan Zheng, Wanqin Yang, Guohai Situ. Application of computational optical imaging in scattering. Infrared and Laser Engineering, 48, 0603005(2019).

[3] F Roddier, L Thompson. Adaptive optics in astronomy. Physics Today, 53, 69(2000).

[4] D Huang, E A Swanson, C P Lin, et al. Optical coherence tomograph. Science, 254, 1178-1181(1991).

[5] O Katz, P Heidmann, M Fink, et al. Non-invasive single-shot imaging through scattering layers and around corners via speckle correlations. Nature Photonics, 8, 784-790(2014).

[6] J Rosen, H Aguiar, V Anand, et al. Roadmap on chaos-inspired imaging technologies (CT²-Tech). Applied Physics B, 128, 49(2022).

[7] [7] McCartney E J. Optics of the Atmosphere: Scattering by Molecules Particles[M]. New Yk: John Wiley Sons, Inc, 1976.

[8] [8] Narasimhan S G, Nayar S K. Removing weather effects from monochrome images[C]Proceedings of the 2001 IEEE Computer Society Conference on Computer Vision Pattern Recognition, 2001, 2: 186193.

[9] [9] Nayar S K, Narasimhan S G. Vision in bad weather[C]Proceedings of the Seventh IEEE International Conference on Computer Vision. Kerkyra, Greece. New Yk: IEEE,1999, 2: 820827.

[10] S G Narasimhan, S K Nayar. Contrast restoration of weather degraded images. IEEE Tran Pattern Anal Mach Intell, 25, 713-724(2003).

[11] [11] Tan R T. Visibility in bad weather from a single image[C]2008 IEEE Conference on Computer Vision Pattern Recognition. Anchage, AK, USA. New Yk: IEEE, 2008: 18.

[12] D Sadot, N S Kopeika. Imaging through the atmosphere: practical instrumentation-based theory; and verification of aerosol modulation transfer function. Journal of the Optical Society of America A, 10, 172-179(1993).

[13] Shujun Li, Huilin Jiang, Jingping Zhu, et al. Development status and key technologies of polarization imaging detection. Chinese Optics, 6, 803-809(2013).

[14] [14] Zhao Yongqiang, Chen Yi, Kong S G, et al. Multib Polarization Imaging Applications[M]. Berlin: SpringerVerlag, 2016.

[15] [15] Kim I I, McArthur B, Kevaar E J. Comparison of laser beam propagation at 785 nm 1550 nm in fog haze f optical wireless communications[C]Proceedings of SPIE, 2022, 4214(2): 2637.

[16] Zhaoping Zhen, Hansheng Zeng, Cuijiao Ding, et al. Summary on the infrared thermal imaging temperature measurement technology and its application. Infrared Technology, 25, 96-98(2003).

[17] Dor B Ben, A D Devir, G Shaviv, et al. Atmospheric scattering effect on spatial resolution of imaging systems. J Opt Soc Am A, 14, 1329-1337(1997).

[18] Guanwen Zhao, Yuyang Shui, Yuru Huang, et al. Self-masking of optical image in dense fog for extended object. Optics Continuum, 1, 1286-1293(2022).

[19] Xin Jin, Xiaoyu Wang, Dongyu Du, et al. Progress and prospect of scattering imaging. Laser and Optoelectronics Progress, 58, 1811002(2021).

[20] S Feng, C Kane, P Lee, et al. Correlations and fluctuations of coherent wave transmission through disordered media. Phys Rev Lett, 61, 834-837(1988).

[21] Shuo Zhu, Enlai Guo, Lianfa Bai, et al. Efficient learning-based phase retrieval method through unknown scattering media. Infrared and Laser Engineering, 51, 20210889(2022).

[22] H Zhuang, H He, X Xie, et al. High speed color imaging through scattering media with a large field of view. Sci Rep, 6, 32696(2016).

[23] Xiaoqing Xu, Xiangsheng Xie, Abhilash Thendiyammal, et al. Imaging of objects through a thin scattering layer using a spectrally and spatially separated reference. Opt Express, 26, 15073-15083(2018).

[24] F Wang, B Zhang, C Zhang, et al. Low-light image joint enhancement optimization algorithm based on frame accumulation and multi-scale Retinex. Ad Hoc Networks, 113, 102398(2021).

[25] Yuru Huang, Yikun Liu, Haishan Liu, et al. Multi-view optical image fusion and reconstruction for defogging without a prior in-plane. Photonics, 8, 454(2021).

[26] [26] David Marr. Vision: A Computational Investigation into the Human Representation Processing of Visual Infmation[M]. Cambridge: MIT Press, 1982.

[27] [27] Palmer S E. Vision Science: Photons to Phenomenology[M]. Cambridge: MIT Press, 1999.

[28] S Bamard, M Fischler. Computational Stereo. ACM Computer Surveys, 14, 553-572(1982).

[29] B Ham, D Min, C Oh, et al. Probability-based rendering for view synthesis. IEEE Transactions on Image Processing, 23, 870-884(2014).

[30] Sen Lin, Xinyong Yin, Yandong Tang. Research status and prospect of binocular stereo matching technology. Science Technology and Engineering, 17, 135-147(2017).

[32] [32] Kang Lai. A study of 3D reconstruction methods based on image feature points[D]. Changsha: National University of Defense Technology, 2013. (in Chinese)

[33] Zexiao Xie, Junpeng Li, Shukai Chi. Underwater binocular measurement method based on line-structured light. Chinese Journal of Lasers, 47, 0504004(2020).

[34] Jules Bela. Binocular depth perception of computer-generated patterns. Bell System Technical Journal, 39, 1125-1162(1960).