[1] D Strugarek, K Sonica, D Arnold, et al. Determination of global geodetic parameters using satellite laser ranging measurements to Sentinel-3 satellites. Remote Sensing, 11, 1-21(2019).
[2] W Matthew, S Ulrich, P Ivan, et al. The next generation of satellite laser ranging systems. Journal of Geodesy, 93, 2227-2247(2019).
[3] R José, G Appleby, T Otsubo, et al. Upgraded modelling for the determination of centre of mass corrections of geodetic SLR satellites: impact on key parameters of the terrestrial reference frame. Journal of Geodesy, 93, 2553-2568(2019).
[4] Qingli Song, Zhipeng Liang, Xue Dong, et al. High repetition rate laser ranging to space debris from Changchun Observatory. Optics and Precision Engineering, 24, 175-182(2016).
[5] Guanyu Wen, Shuang Wang, Ning An, et al. Analysis of aberration effect on high orbit satellite laser ranging. Infrared and Laser Engineering, 47, 0906001(2018).
[6] H Kunimori, M Ishizu, Hi Araki. Transmit/receive optical ranging system for long distance target. Technical Report of Ieice Sane, 111, 7-12(2012).
[7] Tangyong Guo, Yechun Tan, Cuixia Li, et al. Research on calibration of super short distance target in satellite laser ranging. Journal of Geodesy and Geodynamics, 21, 90-94(2001).
[8] Liu Yuan. Research on data processing method of high frequency laser ranging of spherical satellite[D]. Changchun: Changchun Observaty, National Astronomical Observaties, Chinese Academy of Sciences, 2019: 2327. (in Chinese)
[9] S W Samwel, Z Metwally, J S Mikhail, et al. Analyzing the range residuals of the SLR data using two different methods. NRIAG Journal of Astronomy and Astrophysics, 4, 1-14(2005).
[10] Nan Zhao, Yu Xue, Jing Wang. Analysis of stray radiation from infrared optical system with Monte-Carlo method. Chinese Journal of Optics and Applied Optics, 3, 665-670(2010).
[11] Y Salih, Victor, R O Jun, et al. 2D Monte Carlo simulation of a silicon waveguide-based single-photon avalanche diode for visible wavelengths. Optics Express, 26, 15232-15246(2018).
[12] M Drodewski, K Sonica, F Zus, et al. Troposphere delay modeling with horizontal gradients for satellite laser ranging. Journal of Geodesy, 93, 1-14(2019).
[13] Ming Li, Li Xue, Chen Huang, et al. Estimation of detection range for space debris laser ranging system based on efficient echo probability. Optics and Precision Engineering, 24, 260-267(2016).
[14] Chenghao Liu, Yunfei Chen, Jiwei He, et al. Simulation and accuracy analysis of single photon ranging system. Infrared and Laser Engineering, 43, 382-387(2014).
[15] Zheng Xiangyang. Research of data processing technology in photon counting LIDAR systems under movable conditions[D]. Shanghai: Shanghai Institute of Technical Physics, Chinese Academy of Sciences, 2016: 3134. (in Chinese)
[16] L Xu, Y Zhang, Y Zhang, et al. Signal restoration method for restraining the range walk error of Geiger-mode avalanche photo diode lidar in acquiring a merged three-dimensional image. Applied Optics, 56, 3059-3065(2017).
[17] Qun Liu, Chong Liu, Xiaolei Zhu, et al. Analysis of the optimal operating wavelength of spaceborne oceanic lidar.. Chinese Optics, 13, 148-155(2020).
[18] W Xue, L Liu, X Dai, et al. Moving target ranging method for a photon-counting system. Optics Express, 26, 34161-34178(2018).