Non-Line-of-Sight Ultraviolet Communication Performance in Atmospheric Turbulence

Non-Line-of-Sight （NLOS） Ultrav- iolet （UV） communication uses the atmosph- ere as a propagation medium. As the commu- nication range increases, turbulence becomes a significant atmospheric process that affects the propagation of optical waves. This paper pre- sents a more accurate NLOS channel mode...

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Veröffentlicht in:	China communications 2013-11, Vol.10 (11), p.52-57
Hauptverfasser:	Yong, Zuo, Jian, Wu, Houfei, Xiao, Jintong, Lin
Format:	Artikel
Sprache:	eng
Schlagworte:	Atmospheric modeling atmospheric turbulence Bit error rate NLOS Nonlinear optics Optical fiber communication Optical scattering Refractive index scintillation Transceivers ultraviolet communication 大气湍流比特误码率紫外视线通信性能通讯系统非视距
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creator	Yong, Zuo Jian, Wu Houfei, Xiao Jintong, Lin
description	Non-Line-of-Sight （NLOS） Ultrav- iolet （UV） communication uses the atmosph- ere as a propagation medium. As the commu- nication range increases, turbulence becomes a significant atmospheric process that affects the propagation of optical waves. This paper pre- sents a more accurate NLOS channel model by considering turbulence-induced Scintillation Att- enuation （SA）. Then, the Bit Error Rate （BER） during turbulence of the NLOS UV commu- nication system with On-Off Keying （OOK） modulation and Maximum Likelihood （ML） detection is analysed and compared with that in free space without turbulence. The BER dependence is also analysed for different fac- tors, including the refractive index structure parameter, transceiver range, pointing angles, transmitted power, and data rate.
doi_str_mv	10.1109/CC.2013.6674210
format	Article
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As the commu- nication range increases, turbulence becomes a significant atmospheric process that affects the propagation of optical waves. This paper pre- sents a more accurate NLOS channel model by considering turbulence-induced Scintillation Att- enuation （SA）. Then, the Bit Error Rate （BER） during turbulence of the NLOS UV commu- nication system with On-Off Keying （OOK） modulation and Maximum Likelihood （ML） detection is analysed and compared with that in free space without turbulence. The BER dependence is also analysed for different fac- tors, including the refractive index structure parameter, transceiver range, pointing angles, transmitted power, and data rate.</abstract><pub>China Institute of Communications</pub><doi>10.1109/CC.2013.6674210</doi><tpages>6</tpages></addata></record>
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subjects	Atmospheric modeling atmospheric turbulence Bit error rate NLOS Nonlinear optics Optical fiber communication Optical scattering Refractive index scintillation Transceivers ultraviolet communication 大气湍流比特误码率紫外视线通信性能通讯系统非视距
title	Non-Line-of-Sight Ultraviolet Communication Performance in Atmospheric Turbulence
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