[1] Wang Z, Du Y, Wei K et al. Vision, Application Scenarios, and Key Technology Trends for 6G Mobile Communications[J]. Science China Information Sciences, 65, 151301(2022).

[2] Mobley C D[M]. Light and Water: Radiative Transfer in Natural Waters(1994).

[3] Lin T, Gong C, Luo J et al. Dynamic Optical Wireless Communication Channel Characterization through Air-water Interface[C], 9209928(2020).

[4] Lin T, Huang N, Gong C et al. Preliminary Characterization of Coverage for Water-to-air Visible Light Communication through Wavy Water Surface[J]. IEEE Photonics Journal, 13, 7901013(2021).

[5] Lin T, Fu C, Wei T et al. Waving Effect Characterization for Water-to-air Optical Wireless Communication[J]. Journal of Lightwave Technology, 41, 120-136(2022).

[6] Sun X, Kong M, Alkhazragi O A et al. Field Demonstrations of Wide-beam Optical Communications through Water-Air Interface[J]. IEEE Access, 8, 160480-160489(2020).

[7] Liu W, Zou D, Xu Z et al. Non-line-of-sight Scattering Channel Modeling for Underwater Optical Wireless Communication[C], 7288125(2015).

[8] Lin J, Du Z, Yu C et al. Machine-vision-based Acquisition, Pointing, and Tracking System for Underwater Wireless Optical Communications[J]. Chinese Optics Letters, 19, 050604(2021).

[9] Islam M S, Younis M. An Adaptive DPPM for Efficient and Robust Visible Light Communication Across the Air-water Interface[C], 1-6(2020).

[10] Wang Z, Zhong W D, Yu C. Performance Improvement of OOK Free-space Optical Communication Systems by Coherent Detection and Dynamic Decision Threshold in Atmospheric Turbulence Conditions[J]. IEEE Photonics Technology Letters, 24, 2035-2037(2012).

[11] Sun X, Kong M, Shen C et al. On the Realization of Across Wavy Water-air-interface Diffuse-line-of-sight Communication based on an Ultraviolet Emitter[J]. Optics Express, 27, 19635-19649(2019).

[12] Lu H, Jiang M, Cheng J. Deep Learning Aided Robust Joint Channel Classification, Channel Estimation, and Signal Detection for Underwater Optical Communication[J]. IEEE Transactions on Communications, 69, 2290-2303(2021).

[13] Jiang R, Sun C, Zhang L et al. Deep Learning Aided Signal Detection for SPAD-based Underwater Optical Wireless Communications[J]. IEEE Access, 8, 20363-20374(2020).

[14] Lu H, Chen W, Jiang M. Deep Learning Aided Misalignment-robust Blind Receiver for Underwater Optical Communication[J]. IEEE Wireless Communications Letters, 10, 1984-1988(2021).

[15] Wang J, Luo H, Ruby R et al. Reliable Water-air Direct Wireless Communication: Kalman Filter-assisted Deep Reinforcement Learning Approach[C], 9843503(2022).

[16] Yan H, Zhao L, Jiang M et al. Deep Learning based Demodulation for Visible Light Communication in Extended Water-to-air Channels[C], 10681704(2024).

[17] Jamali M V, Mirani A, Parsay A et al. Statistical Studies of Fading in Underwater Wireless Optical Channels in the Presence of Air Bubble, Temperature, and Salinity Random Variations[J]. IEEE Transactions on Communications, 66, 4706-4723(2018).

[18] Li X Z, Miao X C, Qi X et al. Laser Atmosphere-seawater Channel Transmission Characteristics under Complicated Sea Conditions[J]. Acta Optica Sinica, 38, 301002(2018).

[19] Puri P, Garg P, Aggarwal M. Analysis of Spectrally Efficient Two-way Relay Assisted Free Space Optical Systems in Atmospheric Turbulence with Path Loss[J]. International Journal of Communication Systems, 29, 99-112(2016).