Average capacity of ground-to-train wireless optical communication links in the non-Kolmogorov and gamma-gamma distribution turbulence with pointing errors

Gao Jie; Zhang Yixin; Cheng Mingjian; Zhu Yun; Hu Zhengda

首页> 外文期刊>Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter >Average capacity of ground-to-train wireless optical communication links in the non-Kolmogorov and gamma-gamma distribution turbulence with pointing errors

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Average capacity of ground-to-train wireless optical communication links in the non-Kolmogorov and gamma-gamma distribution turbulence with pointing errors

机译：非Kolmogorov和伽马-伽马分布湍流中指向误差的地对火车无线光通信链路的平均容量

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A model of the average capacity of the ground-to-train wireless optical communication (WOC) link is established by using the gamma-gamma distribution of moderate to strong scintillation regions. Our numerical propagations indicate that the average channel capacity increases with the increase of refractive-index structure parameter and turbulence spectral index. For the link operating distance being larger than 100 m, the influences of the change for the normalized beamwidth on the average channel capacity can be ignored. The higher the average SNR results, the higher is the equivalent average channel capacity. The point errors between the transmitter laser and receiver detector are dominant factor to decrease the average capacity of links. (C) 2015 Elsevier B.V. All rights reserved

机译：通过使用中度到强闪烁区域的伽马-伽马分布，建立了地面到火车无线光通信（WOC）链路的平均容量模型。我们的数值传播表明平均通道容量随着折射率结构参数和湍流光谱指数的增加而增加。对于链路工作距离大于100 m的情况，可以忽略归一化波束宽度变化对平均信道容量的影响。平均SNR结果越高，等效平均信道容量就越高。发射器激光器和接收器探测器之间的点误差是降低链路平均容量的主要因素。（C）2015 Elsevier B.V.保留所有权利

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来源
《Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter》 |2016年第null期|共7页
作者
Gao Jie; Zhang Yixin; Cheng Mingjian; Zhu Yun; Hu Zhengda;
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正文语种 eng
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Wireless optical communications; Ground-to-train; Channel capacity; Gamma-gamma distribution; Non-Kolmogorov turbulence;

机译：无线光通信;地面到火车;信道容量;伽马-伽马分布;非柯尔莫哥罗夫湍流;

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1. Average capacity of ground-to-train wireless optical communication links in the non-Kolmogorov and gamma-gamma distribution turbulence with pointing errors [J] . Gao Jie, Zhang Yixin, Cheng Mingjian, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2016,第Null期

机译：非Kolmogorov和伽马-伽马分布湍流中指向误差的地对火车无线光通信链路的平均容量
2. Average capacity of wireless optical links using Laguerre-Gaussian beam through non-Kolmogorov turbulence based on generalized modified atmospheric spectral model [J] . Ou Jun, Hu Miao, Li Fang, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2019,第期

机译：通过基于广义改性的大气谱模型的非Kolmogorov湍流使用Laguerre-Gaussian光束的无线光学链路的平均容量
3. Average capacity for optical wireless communication systems over exponentiated Weibull distribution non-Kolmogorov turbulent channels [J] . Mingjian Cheng, Yixin Zhang, Jie Gao, Applied optics . 2014,第18期

机译：指数Weibull分布非Kolmogorov湍流信道上的光学无线通信系统的平均容量
4. Effects of pointing errors on average capacity of FSO links over gamma-gamma turbulence channel [C] . Petkovic Milica I., Dordevic Goran T. International Conference on Telecommunications in Modern Satellite, Cable and Broadcasting Services . 2013

机译：指向错误对伽马-伽马湍流通道上FSO链路平均容量的影响
5. Broadband millimeter-wave optical transmitters for fiber-wireless communications links. [D] . Park, John. 1997

机译：用于光纤无线通信链路的宽带毫米波光发射机。
6. Capacity of a Radio Vortex Communication System Using a Partial Angular Aperture Receiving Scheme under the Horizontal Non-Kolmogorov Model [O] . Qian Ma, Hengkai Zhao 2021

机译：无线电涡流通信系统的容量在水平非Kolmogorov模型下使用局部角度孔径接收方案
7. Performance analysis of dual-hop optical wireless communication systems over k-distribution turbulence channel with pointing error [O] . Mishra, Neha, Kumar, D. Sriram, Jha, Pranav Kumar 2017

机译：双跳光无线通信系统的性能分析具有指向误差的k分布湍流通道
8. Phase Coherent Digital Communications for Wireless Optical Links in Turbid Underwater Environments [R] . Cochenour, B., Mullen, L., Laux, A. 2007

机译：浑浊水下环境中无线光链路的相位相干数字通信

Average capacity of ground-to-train wireless optical communication links in the non-Kolmogorov and gamma-gamma distribution turbulence with pointing errors

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