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河海大学信息科学与工程学院,江苏 常州 213200
Received:16 December 2024,
Revised:2025-05-12,
Published:20 May 2025
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朱家彬,李岳衡,王炜杰.衰落环境下SIMO-UWOC系统误码性能分析[J].电信科学,2025,41(05):121-128.
ZHU Jiabin,LI Yueheng,WANG Weijie.Bit error rate performance analysis of SIMO-UWOC systems in fading environments[J].Telecommunications Science,2025,41(05):121-128.
朱家彬,李岳衡,王炜杰.衰落环境下SIMO-UWOC系统误码性能分析[J].电信科学,2025,41(05):121-128. DOI: 10.11959/j.issn.1000-0801.2025133.
ZHU Jiabin,LI Yueheng,WANG Weijie.Bit error rate performance analysis of SIMO-UWOC systems in fading environments[J].Telecommunications Science,2025,41(05):121-128. DOI: 10.11959/j.issn.1000-0801.2025133.
基于海洋湍流衰落环境,考虑一个由广义伽马分布(generalized Gamma distribution,GGD)海洋湍流效应、零视轴指向误差以及路径损耗组成的混合衰落信道模型。利用Meijer-G函数推导出该模型下采用选择式合并(selection combining,SC)下的单输入多输出(single input multiple output,SIMO)-水下无线光通信(underwater wireless optical communication,UWOC)系统下的平均误码率,通过蒙特卡洛仿真验证准确性。仿真结果表明:SIMO系统中SC的性能优于SISO系统的性能;相同平均误码率下,SIMO系统的传输距离也优于SISO系统的传输距离。
In the marine turbulence fading environment
a hybrid fading channel model was considered
which included the effects of generalized Gamma distribution (GGD) marine turbulence
zero-mean axis pointing errors
and path loss. Using the Meijer-G function
the average bit error rate for a single-input multiple-output (SIMO) underwater wireless optical communication (UWOC) system employing selection combining (SC) was derived. Finally
the accuracy of the derived expression was validated through Monte Carlo simulations. The results show that the performance of SC in the SIMO system outperforms that of the SISO system. Additionally
for the same average bit error rate
the transmission distance of the SIMO system is also superior to that of the SISO system.
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