Performance of multi-hop M-ary PPM FSO systems with SIMO links over strong atmospheric turbulence channel and pointing errors

机译：具有SIMO链接的多跳Mary PPM FSO系统在强大气湍流通道和指向误差上的性能

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Strong atmospheric turbulence and pointing errors are major challenges in free-space optical communication (FSO) systems. In this paper, in order to overcome these challenges, we propose to employ multi-hop transmission with single-input multiple-output (SIMO) links (i.e., receiver diversity) in FSO systems. In addition, M-ary pulse-position modulation (PPM) and symbol detect-and-forward relaying scheme will be used to further improve the system performance. We formulate the closed-form expressions for bit error rate (BER) of multi-hop M-ary PPM FSO systems with equal gain combining (EGC) and maximum ratio combining (MRC) diversity techniques taking into account the effects of background noise and thermal noise. Numerical results indicate that the combination of multi-hop transmission and receiver diversity is a great solution for reducing effects of strong atmospheric turbulence and pointing errors.

机译：强烈的大气湍流和指向误差是自由空间光通信（FSO）系统的主要挑战。在本文中，为了克服这些挑战，我们建议在FSO系统中采用具有单输入多输出（SIMO）链路（即接收器分集）的多跳传输。此外，将使用M进制脉冲位置调制（PPM）和符号检测转发中继方案来进一步提高系统性能。考虑到背景噪声和热效应的影响，我们采用等增益合并（EGC）和最大比率合并（MRC）分集技术，制定了多跳Mary PPM FSO系统的误码率（BER）的闭式表达式。噪音。数值结果表明，多跳发送和接收器分集的组合是减少强大气湍流和指向误差影响的一个很好的解决方案。

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《World Congress on Information and Communication Technologies》|2013年|121-126|共6页
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Dang Ngoc T.; Nguyen Long H.; Pham Hien T. T.;
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Free-space optical communication (FSO); atmospheric turbulence; multi-hop transmission; pointing errors; pulse-position modulation (PPM); receiver diversity;

机译：自由空间光通信（FSO）;大气湍流;多跳传输;指向误差;脉冲位置调制（PPM）;接收机分集;

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专利

1. Comments on `BER Performance of FSO Links over Strong Atmospheric Turbulence Channels with Pointing Errors' [J] . Wang Jun-Bo, Sheng Ming, Song Xiaoyu, Communications Letters, IEEE . 2012,第1期

机译：关于“具有指向性错误的强大气湍流通道上的FSO链路的BER性能”的评论
2. BER Performance of FSO Links over Strong Atmospheric Turbulence Channels with Pointing Errors [J] . Sandalidis H.G., Tsiftsis T.A., Karagiannidis G.K., IEEE communications letters . 2008,第1期

机译：具有指向误差的强大气湍流通道上FSO链路的BER性能
3. FSO links with diversity pointing errors and temporal broadening of the pulses Over weak to strong atmospheric turbulence channels [J] . Varotsos G. K., Nistazakis H. E., Volos Ch. K., Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2016,第6期

机译：FSO与多样性指向误差和脉冲的时间展宽联系在一起，从弱到强的大气湍流通道
4. Performance of multi-hop M-ary PPM FSO systems with SIMO links over strong atmospheric turbulence channel and pointing errors [C] . Dang Ngoc T., Nguyen Long H., Pham Hien T. T. World Congress on Information and Communication Technologies . 2013

机译：多跳M-ARY PPM FSO系统的性能与SIMO链路强大的大气湍流通道和指向误差
5. Coherent optical array receiver for PPM signals under atmospheric turbulence. [D] . Munoz Fernandez, Michela. 2006

机译：在大气湍流下用于PPM信号的相干光学阵列接收器。
6. BER and Channel Capacity Performance of an FSO Communication System over Atmospheric Turbulence with Different Types of Noise [O] . Zixuan Xu, Guanjun Xu, Zhengqi Zheng 2021

机译：具有不同类型噪声的FSO通信系统的FSO通信系统的BER和信道能力性能
7. Performance Evaluation and Enhancement of M-Ary DPPM Modulation for WDM-PON/FSO Systems Impaired by Atmospheric Turbulence, Interchannel Crosstalk, and ASE Noise [O] . Ebrahim E. Elsayed, Bedir B. Yousif 2020

机译：WDM-PON / FSO系统M-ARY DPPM调制的性能评估和增强由大气湍流，Interchunnel串扰和ASE噪声损害的WDM-PON / FSO系统

Performance of multi-hop M-ary PPM FSO systems with SIMO links over strong atmospheric turbulence channel and pointing errors

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