[1] Kazaura K, Omae K, Suzuki T et al. Enhancing performance of next generation FSO communication systems using soft computing based predictions[J]. Optics Express, 14, 4958-4968(2006).

[2] Scott A M, Ridley K D, Jones D C et al. Retro-reflective communications over a kilometre range using a MEMS-based optical tag[J]. Proceedings of SPIE, 7480, 74800L(2009).

[3] Jia R, Wei H Y, Zhang H J et al. Scintillation index of echo wave in slant atmospheric turbulence[J]. Chinese Journal of Lasers, 42, 1113001(2015).

[4] Mahon R, Ferraro M S, Goetz P G et al. Atmospheric turbulence effects on a monostatic and bistatic retroreflecting link[J]. Proceedings of SPIE, 9080, 908017(2014).

[5] Goetz P G, Rabinovich W S, Mahon R et al. Modulating retro-reflector lasercom systems for small unmanned vehicles[J]. IEEE Journal on Selected Areas in Communications, 30, 986-992(2012).

[6] Ren J Y, Sun H Y, Zhang L X. Research on a space microsatellite laser communication method based on modulating retroreflector technology[M]. ∥Habib K, Lewis E. Frontier research and innovation in optoelectronics technology and industry. London: Taylor & Francis Group, 341-346(2018).

[7] Goetz P G, Rabinovich W S, Walters R J et al. Effects of proton irradiation on InGaAs/AlGaAs multiple quantum well modulators[C]∥2001 IEEE Aerospace Conference Proceedings (Cat. No.01TH8542), March 10-17, 2001, Big Sky, MT, USA., 1523-1529(2001).

[8] Thueux Y, Avlonitis N, Erry G. DAZZLE project: UAV to ground communication system using a laser and a modulated retro-reflector[J]. Proceedings of SPIE, 9248, 92480P(2014).

[9] Millour F, Ottogalli S, Maamri M, nanosatellite project[EB/OL] et al. -08-29)[2021-05-01]. https:∥arxiv., org/abs/1808, 09848(2018).

[10] Zhang P, Wang T S, Yang G W et al. Performance evaluation of full-duplex free space laser communication system based on modulating retro-reflector[J]. Infrared and Laser Engineering, 44, 2506-2510(2015).

[11] Yang G W, Li Z P, Bi M H et al. Channel modeling and performance analysis of modulating retroreflector FSO systems under weak turbulence conditions[J]. IEEE Photonics Journal, 9, 16755236(2017).

[12] Li X Y, Zhang P, Tong S F. Bit error rate performance for modulating retro-reflector free space optical communication system based on adaptive threshold under atmospheric turbulence[J]. Chinese Journal of Lasers, 45, 0606001(2018).

[13] Li X Y, Zhao X H, Zhang P. Bit error rate analysis for modulating retro-reflector free space optical communications with adaptive threshold over correlated gamma gamma fading channels[J]. IEEE Communications Letters, 23, 2275-2278(2019).

[14] El Saghir B M, El Mashade M B, Aboshosha A M. Performance analysis of modulating retro-reflector FSO communication systems over Málaga turbulence channels[J]. Optics Communications, 474, 126160(2020).

[15] Sandalidis H G, Tsiftsis T A. Outage probability and ergodic capacity of free-space optical links over strong turbulence[J]. Electronics Letters, 44, 46-47(2008).

[16] Andrews L C, Phillips R L[M]. Laser beam propagation through random media, 230-255(2005).

[17] Yang R K, Chen Y, Hou J et al. BER of Gaussian beam propagation in non-Kolmogorov turbulent atmosphere on slant path[J]. Proceedings of SPIE, 8906, 890625(2013).

[18] Yi X, Liu Z J, Yue P. Uplink laser satellite-communication system performance for a Gaussian beam propagating through three-layer altitude spectrum of weak-turbulence[J]. Optik, 124, 2916-2919(2013).

[19] Ji Y, Yue P, Yan R Q et al. BER performance analysis of the atmospheric laser communication system on the slant path in weak turbulence[J]. Journal of Xidian University, 43, 66-70(2016).

[20] Press W H, Teukolsky S A, Vetterling W T et al[M]. Numerical recipes in C: the art of scientific computing(1992).

[21] Wu Y, Mei H P, Wei H L. Performance analysis of free-space optical communication system under joint channel conditions[J]. Laser & Optoelectronics Progress, 57, 050101(2020).

[22] Chen Q R, Yu X, Cui W N et al. Visible-light communication and performance analysis based on medium- and short-distance inter-satellite links[J]. Acta Optica Sinica, 39, 1006003(2019).

[23] Cao M H, Wu X, Wang H Q et al. Performance of faster-than-Nyquist optical communication system under Gamma-Gamma atmospheric turbulence[J]. Chinese Journal of Lasers, 47, 0906003(2020).

[24] Nistazakis H E, Tsiftsis T A, Tombras G S. Performance analysis of free-space optical communication systems over atmospheric turbulence channels[J]. IET Communications, 3, 1402-1409(2009).

[25] García-Zambrana A, Castillo-Vázquez C, Castillo-Vázquez B. On the capacity of FSO links over gamma-gamma atmospheric turbulence channels using OOK signaling[J]. EURASIP Journal on Wireless Communications and Networking, 2010, 127657(2010).