[1] [1] ATA Y, KIASALEH K. Analysis of optical wireless communicationlinks in turbulent underwater channels with wide range of water parameters[J]. IEEE Transactions on Vehicular Technology. 2023, 72(5): 6363-6374.

[2] [2] XU X, LI Y, HUANG P. et al BER performance of UWOC with APD receiver in wide range oceanic turbulence [J]. IEEE Access, 2022, 10:25203-25218.

[3] [3] ALIMF, JAYAKODY D N K, LI Y. Recent trends in underwater visi-ble light commmmnication (UVLC) systems[J]. IEEE Access, 2022, 10: 22169-22225.

[4] [4] ALIPOUR A, MIR A. On the performance of bie-green waves propagn-tion through underwater optical wireless comnminication system[J]. Photonic Network Commmications, 2018, 36: 309-315.

[6] [6] JAMALI MV, MIRANI A, PARSAY A, et al. Statistical studies of fading in underwater wireless optical charmels in the presence of air bubble,temiperature, and salinity random variations[J]. TEEE Transactions on Communications, 2018, 66(10): 4706-4723.

[7] [7] SHARIFZADEH M, AHMADIRAD M Performance analysis of underwater wireless optical communication systems over a wide range of optical turbulence[J]. Optics Communications, 2018, 427: 609-616.

[9] [9] ZHU X, KAHN J M Free-space optical comnminication through atmo-spheric turbulence charmels [J]. IEEE Transactions on commmications,2002, 50(8): 1293_1300.

[10] [10] NGUYENN, OKTEN G. The acceptance-rejection method for low-dis-crepancy sequences [J]. Monte Carlo Methods and Applications, 2016, 22(2): 133-148.