[2] Liu Dan, Liu Yan, Liu Zhi, et al. Performance analysis on atmosphere laser communication system based on circular polarization shift keying[J]. Infrared and Laser Engineering, 2013, 42(11): 3111-3115. (in Chinese)
[3] Han Qiqi, Wang Qiang, Ma Jing, et al. Experimental research on vibration influence and compensation of space light to fiber coupling efficiency[J]. Infrared and Laser Engineering, 2014, 43(3):933-939. (in Chinese)
[5] Sun Huayan, Zhang Laixian, Zhao Yanzhong, et al. Progress of free-space optical communication technology based on modulating retro-reflector[J]. Laser & Optoeletronics Progress, 2013, 50(4): 1-9. (in Chinese)
[7] Mikaelian T, Weel M, Kumarakrishnan A, et al. A high-speed retro-reflector for free-space communication based on electro-optic phase modulation[J]. Canadian Journal of Physics, 2013, 81(4): 639-650.
[8] Gagnon S, Sylvestre B, Gagnon L, et al. Recent developments in satellite laser communications: Canadian context[C]// Proceedings of 2012 International Conference on Space Optical Systems and Applications, 2012: 9-12.
[9] Goetz P G, Rabinovich W S, Mahon R, et al. Modulating retro-reflector lasercom systems for small unmanned vehicles[C]//IEEE Journal on Selected Areas in Communications, 2012, 30(50): 986-992.
[10] Shay T M, Hazzard D A, MacCannell J A, et al. First experimental demonstration of full-duplex optical communications on a single laser beam[C]//15th Annual/USU Conference on Small Satellites, 2001: 1-7.
[11] Gao J L. Optical retro-reflector-based sensor networks for in-situ science applications[C]//Proceedings of 2003 IEEE Aerospace Conference, 2003, V3:3_1295-3_1302.
[12] Chand N, DeLuck T, Hunton A J, et al. Compact low-cost non-RF communication solutions for unmanned ground vehicles[C]//IEEE Miltary Communications Coneerence, 2010: 1577-1582.
