[1] Zheng M J, Liu X[J]. The development and principle of laser range measurement technology at home and abroad Science and Technology Innovation Herald, 2014, 35.
[2] Luo Q S, Guo T Y, Yao Y S et al. Analysis of laser retro-reflector on GRACE gravity satellite[J]. Laser & Optoelectronics Progress, 53, 112301(2016).
[3] Zhang Z P, Cheng Z E, Zhang H F et al. Global laser ranging observation of Beidou satellites and data application[J]. Chinese Journal of Lasers, 44, 0404004(2017).
[4] Zhao Y M, Li Y H, Shang Y N et al. Application and development direction of ladar[J]. Journal of Telemetry, Tracking and Command, 35, 4-19(2014).
[5] Yu Z Z, Hou X, Zhou C Y. Progress and current state of space-borne laser altimetry[J]. Laser & Optoelectronics Progress, 50, 020006(2013).
[6] Neumann G A. Some aspects of processing extraterrestrial LIDAR data: clementine NEAR MOLA[J]. International Archives of Photogrammetry Remote Sensing, 3, 73-80(2001).
[7] Zhang Y F, Yang H[J]. Laser altimeter and its application Aerospace China, 2007, 19-23.
[8] Araki H, Tazawa S, Noda H et al. Observation of the lunar topography by the laser altimeter LALT on board Japanese lunar explorer SELENE[J]. Advances in Space Research, 42, 317-322(2008).
[9] Huang Y, Chang S Q, Li P J et al. "Chang'e III" lunar probe orbit determination and lunar surface positioning[J]. China Science Magazine, 59, 2268-2277(2014).
[10] Pillet G, Morvan L, Dolfi D et al. Wideband dual-frequency lidar-radar for simultaneous velocity and high-resolution range profile measurements[C]. SPIE, 7323, 73230Z(2009).
[11] Shen S S, Chen Q. Research and implementation of performance optimization of single photon range system[J]. Infrared and Laser Engineering, 45, 1-5(2016).
[12] Chen Y, Yang Y. Extended pseudo-random coding rules with different repetition frequency based on single photon detection[J]. Laser & Optoelectronics Progress, 53, 051204(2016).
[13] Kravitz D, Grodensky D, Zadok A et al. Incoherent compression of complementary code pairs for laser ranging and detection[C]. IEEE International Conference on Microwaves, Communications, Antennas and Electronics Systems, 1-5(2013).
[14] Luo Y, He Y, Geng L M et al. Long-distance laser ranging lidar based on photon counting technology[J]. Chinese Journal of Lasers, 43, 0514001(2016).
[15] Chimenti R V, Dierking M P. Sparse frequency LFM ladar signals[J]. Optics Express, 17, 8302(2009).
[16] Yang F, He Y, Shang J et al. Experimental study on the 1550 nm all fiber heterodyne laser range finder[J]. Applied Optics, 48, 6575-6582(2009).
[17] Allen C T, Chong S K. Development of a 1319 nm laser radar using fiber optics and RF pulse compression[D]. Kansas: The University of Kansas(2002).
[18] Zhu X Y, Ding K. Comparative comparison of discrete spectrum correction methods[J]. Signal Processing, 17, 91-97(2005).
[19] Liu F, Jin S L. Frequency analysis technology in laser Doppler velocimeter[J]. Infrared and Laser Engineering, 41, 1463-1468(2012).
[20] Yang F, He Y, Chen W B. Parameter design of space-borne altimeter[J]. Acta Optica Sinica, 28, 572-577(2008).