[1] [1] Sang Jizhang, Bennett J C, Smith C. Experimental results of debris orbit predictions using sparse tracking data from Mt.Stromlo[J]. Acta Astronautica, 2014, 102(Complete): 258-268.

[2] [2] Sang Jizhang, Bennett J C. Achievable debris orbit prediction accuracy using laser ranging data from a single station[J]. Advance in Space Research, 2014, 54(1): 119-124.

[3] [3] Huang Minshuang, Long Tengyu, Liu Huihui, et al.. A high-precision pulsed laser ranging time interval measurement technology based on sine curves method[J]. Chinese J Lasers, 2014, 41(8): 0808002.

[4] [4] Wang Guochao, Yan Shuhua, Yang Jun, et al.. Theoretical modeling analysis for precise space ranging based on cross-correlation of femtosecond optical frequency comb[J]. Acta Optica Sinica, 2015, 35(4): 0412002.

[5] [5] Dong X. Research on high repetition space debris laser ranging system[D]. Changchun: Changchun Institute of Optics, Fine Mechanics and Physics, 2014.

[6] [6] Zhai Dongsheng, Tang Rufeng, Huang Kai, et al.. Analysis on detection performance of satellite laser ranging based on Geiger mode APD arrays[J]. Chinese J Lasers, 2015, 42(6): 0608007.

[7] [7] Degnan J J. Optimization of the correlation range receiver parameters in SLR2000[C]. Proc 13 th International Workshop on Laser Ranging. Maryland: NASA Conference Publication, 2002: 3-7.

[8] [8] Luck J, Moore C, Greene B. Autonomous laser ranging results from mount stromlo[C]. Proc 12 th International Workshop on Laser Ranging, Matera: ASL, 2000: 2-12.

[9] [9] Ricklefs R L, Shelus P J. Poisson filtering of laser ranging data[C]. Proc 8 th International Workshop on Laser Ranging Instrumentation, 1992: 15544.

[10] [10] Kirchner G, Koidl F, Friederich F, et al.. Laser measurements to space debris from Graz SLR station[J]. Advance in Space Research, 2013, 51(1): 21-24.

[11] [11] Liu Yanyu, Wu Xiaoping, Gao Hao, et al.. Data pre-processing algorithm of satellite laser ranging based on curve recognition from points cloud[J]. Journal of Geodesy and Geodynamics, 2011, 31(1): 105-108.

[12] [12] Li Xi, Tang Rufeng, Li Zhulian, et al.. Laser ranging data processing based on the analysis of the binary image[J]. Chinese J Lasers, 2014, 41(12): 1208005.

[13] [13] Feng Chugang, Zhu Yuanlan. An analysis for LAGEOS SLR global normal point data of 1992[J]. Annual of Shanghai Observatory Academia of Sinica, 1995, (16): 107-112.

[14] [14] Zhao Peng, Zhang Yan, Zhang Xiaoya, et al.. Echo online extraction for diffuse reflection laser ranging[J]. Acta Optica Sinica, 2015, 35 (10): 1028002.

[15] [15] Xu Lei, Oja E, Kultanen P. A new curve detection method: randomized Hough transfrom (RHT)[J]. Pattern Recognition Letters, 1990, 11(5): 331-338.

[16] [16] Xu Lei, Oja E, Kultanen P. Randomized Hough transform[J]. Encyclopedia of Artificial Intelligence, 2009, 3: 1354-1361.

[17] [17] Li Yuqiang, Li Zhulian, Fu Honglin, et al.. Experimentation of diffuse reflection laser ranging of space debris[J]. Chinese J Lasers, 2011, 38(9): 0908001.

[18] [18] Xu Lei, Oja E. Randomized Hough transfrom (RHT): basic mechanisms, algorithms, and computational complexities[J]. CVGIP: Image Understanding, 1993, 57(2): 131-154.