[1] Yang WANG. Performance analysis of laser communication under seawater channel(2019).

[2] Changcheng LIU. Simulation and design of ATP subsystem in atmospheric laser communication(2005).

[3] Xiaoming LI, Lizhong ZHANG, Lixin MENG et al. Research and experiment of pointing acquisition tracking system for airborne space laser communication. Acta Armamentarii, 37, 1044-1051(2016).

[4] Wei WANG. Research on single detector coarse fine composite control technology in space laser communication(2020).

[5] Lixin MENG. Research on acquisition and tracking technology of airborne laser communication(2014).

[6] K L BHARGAVA, N R PRASAD, K PRABU. Performance enhancement using multiple input multiple output in dual hop convergent underwater wireless optical communication free space optical communication system under strong turbulence with pointing errors. Optical Engineering, 60, 106106(2021).

[7] J LI, D YE, K FU et al. Single photon detection for MIMO underwater wireless optical communication enabled by arrayed LEDs and SiPMs. Optics Express, 29, 25922-25944(2021).

[8] R NAIK, A U SHRIPATHI, K PRABU. High speed and reliable underwater wireless optical communication system using multiple input multiple output and channel coding techniques for IoUT applications. Optics Communications, 461, 125229(2020).

[9] P PRIYA, M GUNJAN, A MONIKA. Effect of transmitter divergence angle on the performance of underwater visible light communication system. Optical and Quantum Electronics, 54, 802(2022).

[10] Yanru REN, Siguang ZONG, Bin LI et al. Study on the influence of tilt angle and position on the received optical power in underwater laser communication systems. Semiconductor Optoelectronics, 1184-1189(2022).

[11] Bili LI, Dong HAO, Yunzhou ZHU et al. The study of underwater high speed at close range laser communication alignment technique. Automation Instrumentation, 17-20(2021).

[12] Yan AN, Yiyun XU, Keyan DONG et al. Influence of the alignment error in laser communication. Optical Communication Technology, 42, 48-51(2018).

[13] A J WILLIAMS, L L LAYCOCK, M S GRIFFITH et al. Acquisition and tracking for underwater optical communications, 10437, 44-54(2017).

[14] Yuxiang LIU, Yazhong ZHANG, Yuxiao LI et al. Accurate alignment scheme design of underwater visible light communication system based on GPS. Communications Technology, 52, 1657-1661(2019).

[15] Fengtao HE, Pengcheng WEI, Jianlei ZHANG et al. Design and implementation of underwater wireless optical automatic alignment system. Laser Journal, 42, 124-127(2021).

[16] M SAIT, A TRICHILI, O ALKHAZRAGI et al. Dual wavelength luminescent fibers receiver for wide field of view, Gb/s underwater optical wireless communication. Optics Express, 29, 38014-38026(2021).

[17] D WU, Z GHASSEMLOOY, C CHEN. Cellular indoor OWC systems with an optimal lambertian order and a handover algorithm, 777-782(2014).

[18] Xiang LI. Study on the Fresnel lens as an optical antenna of LED based indoor visible light communication(2015).

[19] Nan WU, Aiying YANG, Lihui FENG et al. Research of optical antenna technology in visible light communication. Journal of Nanjing University of Information Science and Technology (Natural Science Edition), 9, 151-158(2017).