[1] Zeng Z, Fu S, Zhang H, et al. A Survey of Underwater Optical Wireless Communications[J]. IEEE Communications Surveys & Tutorials,2017,19(1):204-238.

[2] Johnson L, Green R, Leeson M. A Survey of Channel Models for Underwater Optical Wireless Communication[C]//2013 2nd International Workshop on Optical Wireless Communications (IWOW). Newcastle upon Tyne, UK: IEEE, 2013: 6777765.

[3] Sui M, Yu X, Zhang F. The Evaluation of Modulation Techniques for Underwater Wireless Optical Communications[C]//2009 International Conference on Communication Software and Networks. Macau, China: IEEE, 2009: 10720216.

[4] Khalighi M A, Gabriel C, Hamza T, et al. Underwater Wireless Optical Communication; Recent Advances and Remaining Challenges[C]//2014 16th International Conference on Transparent Optical Networks (ICTON). Graz, Austria: IEEE, 2014: 6876673.

[5] Kaushal H,Kaddoum G.Underwater Optical Wireless Communication[J].IEEE Access,2016,4:1518-1547.

[6] Mobley C D. Light and Water: Radiative Transfer in Natural Waters[M]. San Diego:Academic Press, 1994.

[7] Ali M F, Jayakody D N K, Chursin Y A, et al. Recent Advances and Future Directions on Underwater Wireless Communications[J]. Archives of Computational Methods in Engineering, 2019,26(100): 1-34.

[8] Elamassie M, Miramirkhani F, Uysal M. Performance Characterization of Underwater Visible Light Communication[J]. IEEE Transactions on Communications, 2019, 67(1): 543-552.

[10] Arnon S, Barry J R, Karagiannidis G K, et al. Advanced Optical Wireless Communication Systems[M]. Cambridge:Cambridge University Press, 2012.

[11] Jaruwatanadilok S. Underwater Wireless Optical Communication Channel Modeling and Performance Evaluation Using Vector Radiative Transfer Theory[J]. IEEE Journal on Selected Areas in Communications, 2008, 26(9):1620-1627.

[12] Cochenour B M, Mullen L J, Laux A E. Spatial and Temporal Dispersion in High Bandwidth Underwater Laser Communication Links[C]//MILCOM 2008-2008 IEEE Military Communications Conference. San Diego, CA, USA: IEEE, 2008:4753048.

[13] Cochenour B M, Mullen L J, Laux A E. Characterization of the Beam-spread Function for Underwater Wireless Optical Communications Links[J]. IEEE Journal of Oceanic Engineering, 2008, 33(4):513-521.

[14] Wang L, Jacques S L, Zheng L. MCML—Monte Carlo Modeling of Light Transport in Multi-layered Tissues[J]. Computer Methods and Programs in Biomedicine, 1995, 47(2):131-146.

[15] Gabriel C, Khalighi M A, Bourennane S, et al. Channel Modeling for Underwater Optical Communication[C]//2011 IEEE Globecom Workshops(GC Wkshps). Houston, TX, USA: IEEE, 2011:6162571.

[16] Gabriel C, Khalighi M A, Bourennane S, et al. Monte-Carlo-based Channel Characterization for Underwater Optical Communication Systems[J]. Journal of Optical Communications and Networking,2013,5(1):1-12.

[17] Dong Y, Zhang H, Zhang X. On Impulse Response Modeling for Underwater Wireless Optical MIMO Links[C]//2014 IEEE/CIC International Conference on Communications in China (ICCC). Shanghai, China:IEEE,2014:7008262.

[18] Qadar R, Kasi M K, Ayub S, et al. An Adaptive Approach for Estimation of an Underwater Optical Channel Using Monte Carlo[C]//OCEANS 2017-Aberdeen. Aberdeen, UK:IEEE, 2017:8084711.

[19] Illi E, Bouanani F E, Park K H, et al. An Improved Accurate Solver for the Time-Dependent RTE in Underwater Optical Wireless Communications[J]. IEEE Access, 2019, 7:96478-96494.

[21] Johnson L J, Green R J, Leeson M S. Underwater Optical Wireless Communications: Depth Dependent Variations in Attenuation[J]. Applied Optics,2013,52(33):7867-7873.

[22] Zhang H, Dong Y, Hui L. On Capacity of Downlink Underwater Wireless Optical MIMO Systems with Random Sea Surface[J]. IEEE Communications Letters, 2015, 19(12):2166-2169.

[23] Anous N, Abdallah M, Uysal M, et al. Performance Evaluation of LOS and NLOS Vertical Inhomogeneous Links in Underwater Visible Light Communications[J]. IEEE Access, 2018, 6:22408-22420.

[24] Elamassie M, Uysal M. Performance Characterization of Vertical Underwater VLC Links in the Presence of Turbulence[C]//2018 11th International Symposium on Communication Systems, Networks & Digital Signal Processing (CSNDSP). Budapest, Hungary: IEEE, 2018:8471888.

[25] Elamassie M, Uysal M. Vertical Underwater VLC Links over Cascaded Gamma-Gamma Turbulence Channels with Pointing Errors[C]//2019 IEEE International Black Sea Conference on Communications and Networking (BlackSeaCom). Sochi, Russia: IEEE, 2019:8812811.

[26] Sahoo R, Sahu S K, Shanmugam P. Estimation of the Channel Characteristics of a Vertically Downward Optical Wireless Communication Link in Realistic Oceanic Waters[J]. Optics & Laser Technology, 2019, 116:144-154.

[27] Liu J, Dong Y. On Capacity of Underwater Optical Wireless Links under Weak Oceanic Turbulence[C]//OCEANS 2016-Shanghai. Shanghai, China: IEEE, 2016:7485523.

[28] Oubei H M, Zedini E, ElAfandy R T, et al. Simple Statistical Channel Model for Weak Temperature-Induced Turbulence in Underwater Wireless Optical Communication Systems[J].Optics Letters,2017,42(13):2455-2458.

[29] Vali Z, Gholami A, Ghassemlooy Z, et al. Modeling Turbulence in Underwater Wireless Optical Communications based on Monte Carlo Simulation[J]. Journal of the Optical Society of America A, 2017, 34(7):1187-1193.

[30] Geldard C T, Thompson J, Leitgeb E, et al. Optical Wireless Underwater Channel Modelling in the Presence of Turbulence[C]//2018 IEEE British and Irish Conference on Optics and Photonics (BICOP). London, UK: IEEE, 2018:8658289.

[31] Zedini E, Oubei H M, Kammoun A, et al. Unified Statistical Channel Model for Turbulence-Induced Fading in Underwater Wireless Optical Communication Systems[J]. IEEE Transactions on Communications, 2019, 67(4):2893-2907.

[32] Li C, Park K H, Alouini M S. On the Use of a Direct Radiative Transfer Equation Solver for Path Loss Calculation in Underwater Optical Wireless Channels[J]. IEEE Wireless Communications Letters, 2015, 4(5):561-564.

[33] Khalighi M A, Uysal M. Survey on Free Space Optical Communication: A Communication Theory Perspective[J]. IEEE Communications Surveys & Tutorials, 2014, 16(4):2231-2258.

[34] Ghassemlooy Z, Hayes A R, Seed N L, et al. Digital Pulse Interval Modulation for Optical Communications[J]. IEEE Communications Magazine, 1998, 36(12):95-99.

[35] Doniec M, Detweiler C, Vasilescu I, et al. Using Optical Communication for Remote Underwater Robot Operation[C]//2010 IEEE/RSJ International Conference on Intelligent Robots and Systems. Taipei, Taiwan,China:IEEE,2010:5650224.

[36] Doniec M, Rus D. Bidirectional Optical Communication with Aqua Optical II[C]//2010 IEEE International Conference on Communication Systems. Singapore: IEEE, 2010:5686513.

[37] Gabriel C, Khalighi M A, Bourennane S, et al. Investigation of Suitable Modulation Techniques for Underwater Wireless Optical Communication[C]//2012 International Workshop on Optical Wireless Communications. Pisa, ltaly: IEEE, 2012:6349691.

[38] Swathi P, Prince S. Designing Issues in Design of Underwater Wireless Optical Communication System[C]//2014 International Conference on Communication and Signal Processing. Melmaruvathur, India: IEEE, 2014:6950087.

[39] Liu X, Yi S, Zhou X, et al. 34.5 m Underwater Optical Wireless Communication with 2.70 Gbps Data Rate based on A Green Laser Diode with NRZ-OOK Modulation[J]. Optics Express, 2017, 25(22):27937-27947.

[40] Herji E A, André P, Gomes J, et al. A Study of Modulation Formats for the Blue Ray Underwater Optical Modem[C]//2018 Fourth Underwater Communications and Networking Conference. Lerici, Italy: IEEE, 2018:8493184.

[41] Wang J, Lu C, Li S, et al. 100 m/500 Mbps Underwater Optical Wireless Communication Using an NRZ-OOK Modulated 520 nm Laser Diode[J]. Optics Express, 2019, 27(9):12171-12181.

[42] Cox W C, Hughes B L, Muth J F. A Polarization Shift-Keying System for Underwater Optical Communications[C]//OCEANS 2009. Biloxi, MS, USA: IEEE, 2009:5422258.

[43] Dong Y, Zhang T, Zhang X. Polarized Pulse Position Modulation for Wireless Optical Communications[C]//2013 47th Annual Conference on Information Sciences and Systems (CISS). Baltimore, MD, USA: IEEE, 2013:6624253.

[44] Mi X, Dong Y. Polarized Digital Pulse Interval Modulation for Underwater Wireless Optical Communications[C]//OCEANS 2016-Shanghai. Shanghai, China: IEEE, 2016:7485450.

[45] Al-Halafi A, Shihada B. UHD Video Transmission over Bidirectional Underwater Wireless Optical Communication[J]. IEEE Photonics Journal,2018,10(2):1-14.

[46] Bai J, Li Y, Cheng W, et al. PAPR Reduction for IM/DD-OFDM Signals in Underwater Wireless Optical Communication System[C]//2018 13th IEEE Conference on Industrial Electronics and Applications (ICIEA). Wuhan, China: IEEE, 2018:8398007.

[47] Hessien S, Tokgz S C, Anous N, et al. Experimental Evaluation of OFDM-based Underwater Visible Light Communication System[J]. IEEE Photonics Journal, 2018, 10(5):1-13.

[48] Lian J, Gao Y, Wu P, et al. Orthogonal Frequency Division Multiplexing Techniques Comparison for Underwater Optical Wireless Communication Systems[J]. Sensors, 2019, 19(1):s19010160.

[49] Elamassie M, Karbalayghareh M, Miramirkhani F, et al. Adaptive DCO-OFDM for Underwater Visible Light Communications[C]//2019 27th Signal Processing and Communications Applications Conference (SIU). Sivas, Turkey: IEEE, 2019:8806323.