[1] J XU. Underwater wireless optical communication： why， what， and how. Chinese Optics Letters, 17, 100007(2019).

[2] Z Q ZENG, S FU, H H ZHANG et al. A survey of underwater optical wireless communications. Communications Surveys and Tutorials, 19, 204-238(2016).

[3] J PARTAN, J KUROSE, B N LEVINE. A survey of practical issues in underwater networks. Mobile Computing and Communications Review, 11, 23-33(2007).

[4] Z Y LI, H H LU, S E CAI et al. 50 Gb/s PAM4 underwater wireless optical communication systems across the water-air-water interface. Chinese Optics Letters, 17, 100004(2019).

[5] Y F CHEN, M W KONG, J XU et al. 26 m/5.5 Gbps air-water optical wireless communication based on an OFDM-modulated 520-nm laser diode. Optics Express, 25, 14760-14765(2017).

[6] M W KONG, W C LU, J XU et al. 10-m 9.51-Gb/s RGB laser diodes-based WDM underwater wireless optical communication. Optics Express, 25, 20829-20834(2017).

[7] C D MOBLEY. Light and water： radiative transfer in natural waters(2009).

[8] L JOHNSON, R GREEN, M LEESON. A survey of channel models for underwater optical wireless communication, 2, 13-17(2013).

[9] C GABRIEL, M A KHALIGHI, S BOURENNANE et al. Channel modeling for underwater optical communication, 833-837(2011).

[10] C GABRIEL, M A KHALIGHI, S BOURENNANE et al. Monte-Carlo-base channel characterization for underwater optical communication systems. Journal of Optical Communication and Networking, 5, 1-12(2013).

[11] R QADAR, M K KASL, P A KAKAR et al. Monte Carlo-based channel estimation and performance evaluation for UWOC links under geometric losses. International Journal of Communication Systems, 31, 1-18(2018).

[12] R Z YUAN, J S MA, P SU et al. Monte-Carlo integration models for multiple scattering based optical wireless communication. IEEE Transactions on Communications, 68, 334-348(2020).

[13] H H ZHANG, Y H DONG. General stochastic channel model and performance evaluation for underwater wireless optical links. IEEE Transactions on Wireless Communications, 15, 1162-1173(2016).

[14] S K SAHU, P SHANMUGAM. A theoretical study on the impact of particle scattering on the channel characteristics of underwater optical communication system. Optics Communication, 408, 3-14(2017).

[15] S Q HU, L MI, W B CHEN et al. Viterbi equalization for long-distance， high-speed underwater laser communication. Optical Engineering, 56, 1-10(2017).

[16] Tianhua ZHOU, Tingwei FAN, Weibiao CHEN等. Monte Carlo simulation of laser pulse after underwater propagation. Journal of Atmospheric and Environmental Optics, 15, 40-47(2020).

[17] J LI, Y MA, Q ZHOU et al. Monte Carlo study on pulse response of underwater optical channel. Optical Engineering, 51, 1-5(2012).

[18] J LI, Y MA, Q ZHOU et al. Channel capacity study of underwater wireless optical communications links based on Monte-Carlo simulation. Journal of Optics, 14, 015403(2012).

[19] Xiangyu YU. A study on channel characteristics for underwater wireless optical Communication(2017).

[20] C D MOBLEY, B GENTILI, R H STAVN et al. Comparison of numerical models for computing underwater light fields. Applied Optics, 32, 7484-7504(1993).

[21] F HANSON, S RADIC. High bandwidth underwater optical communication. Applied Optics, 47, 277(2008).

[22] B M COCHENOUR, L J MULLEN, A E LAUX. Characterization of the beam-spread function for underwater wireless optical communications links. Journal of Oceanic Engineering, 33, 513-521(2009).

[23] W C Jr. Simulation， modeling， and design of underwater optical communication systems(2012).

[24] Biao HAN. Study on the bi-directional underwater wireless optical communication for deep sea application(2018).

[25] C F BOHREN, D R HUFFMAN. . Absorption and scattering of light by small particles［M］(1983).

[26] Y M DING, B SONG, N N LI. Monte Carlo method-based dynamic simulation of underwater optical transmission characteristics. SPIE, 10255, 102555C(2017).

[27] D TOUBLANC. Henyey-Greenstein and Mie phase functions in Monte Carlo radiative transfer computations. Applied Optics, 35, 3270-3274(1996).