[1] Xiaolu Li, Jingjing Zeng, Hao Wang, . Design and real-time imaging technology of three-dimensional scanning LiDAR. Infrared and Laser Engineering, 48, 0503004(2019).

[2] Jie Cao, Qun Hao, Fanghua Zhang, . Research progress of APD three-dimensional imaging lidar. Infrared and Laser Engineering, 49, 20190549(2020).

[3] Peituo Xu, Yuting Tao, Zhipeng Liu, . Comparison of oceanic lidar experiments and simulation results. Infrared and Laser Engineering, 49, 0203007(2020).

[4] Xiaohui Fan, Guoliang Xu, Wanlin Li, . Target Segmentation Method for Three-Dimensional LiDAR Point Cloud Based on Depth Image. Chinese Journal of Lasers, 46, 0710002(2019).

[5] Haiwei Wang, Yuxing Ding, Genghua Huang, . Research on the long-range and compact photon counting ladar system under sunlight condition. Infrared and Laser Engineering, 48, 0106005(2019).

[6] Hehui Zhang, Yuxing Ding, Genghua Huang. Photon counting laser bathymetry system. Infrared and Laser Engineering, 48, 0106002(2019).

[7] Yuan Zhao, Zijing Zhang, Kun Ma, . High sensitivity photon polarization laser radar system. Infrared and Laser Engineering, 45, 0902001(2016).

[8] S Li, Z Zhang, Y Ma, et al. Ranging performance models based on negative-binomial (NB) distribution for photon-counting lidars. Optics Express, 27, A861-A877(2019).

[9] A Kirmani, D Venkatraman, D Shin, et al. First-photon imaging. Science, 343, 58-61(2014).

[10] R Tobin, A Halimi, A McCarthy, et al. Long-range depth profiling of camouflaged targets using single-photon detection. Optical Engineering, 57, 031303(2017).

[11] M Ren, X Gu, Y Liang, et al. Laser ranging at 1 550 nm with 1 GHz sine-wave gated InGaAs/InP APD single-photon detector. Optics Express, 19, 13497-13502(2011).

[12] S Hernandez-Marin, A M Wallace, G J Gibson. Bayesian analysis of lidar signals with multiple returns. IEEE Transactions on Pattern Analysis and Machine Intelligence, 29, 2170-2180(2007).

[13] Bhari A, Wallace A M, Raskar R. Superresolved timeofflight sensing via FRI sampling they[C] 2016 IEEE International Conference on Acoustics, Speech Signal Processing (ICASSP), 2016: 40094013.

[14] Zhongyi Guo, Xinyang Wang, Dekui Li, . Advances on theory and application of polarization information propagation. Infrared and Laser Engineering, 49, 20201013(2020).

[15] S Pe'eri, B Long. LIDAR technology applied in coastal studies and management. Journal of Coastal Research, 1-5(2011).

[16] J H Churnside. Polarization effects on oceanographic lidar. Optics Express, 16, 1196-1207(2008).

[17] S Mitchell, J P Thayer, M Hayman. Polarization lidar for shallow water depth measurement. Applied Optics, 49, 6995-7000(2010).

[18] L Xu, Y Zhang, Y Zhang, et al. Restraint of range walk error in a Geiger-mode avalanche photodiode lidar to acquire high-precision depth and intensity information. Applied Optics, 55, 1683-1687(2016).

[19] R A Barton-Grimley, J P Thayer, M Hayman. Nonlinear target count rate estimation in single-photon lidar due to first photon bias. Optics Letters, 44, 1249-1252(2019).

[20] M S Oh, H J Kong, T H Kim, et al. Reduction of range walk error in direct detection laser radar using a Geiger mode avalanche photodiode. Optics Communications, 283, 304-308(2010).

[21] W He, B Sima, Y Chen, et al. A correction method for range walk error in photon counting 3D imaging LIDAR. Optics Communications, 308, 211-217(2013).

[22] L Ye, G Gu, W He, et al. A real-time restraint method for range walk error in 3-D imaging lidar via dual detection. IEEE Photonics Journal, 10, 1-9(2018).

[23] S Y Lu, R A Chipman. Interpretation of Mueller matrices based on polar decomposition. Journal of the Optical Society of America A, 13, 1106-1113(1996).

[24] L Xu, Y Zhang, Y Zhang, et al. Signal restoration method for restraining the range walk error of Geiger-mode avalanche photodiode lidar in acquiring a merged three-dimensional image. Applied Optics, 56, 3059-3063(2017).

[25] Lu Xu, Xu Yang, Long Wu, . Restrain range walk error of Gm-APD lidar to acquire high-precision 3D image. Infrared and Laser Engineering, 49, 20200218(2020).