Climate effects on performance of free space optical communication systems in Yemen

Climate effects on performance of free space optical communication systems in Yemen

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摘要 Free space optical （FSO） communication has been considered as an alternative to radio relay link line-of- sight （LOS） communication systems. The total attenuation is a combination of atmospheric attenuation in the atmosphere and geometric losses. The purpose of this paper is to study the geometric loss versus link range （in kin）, divergence angle, transmitter aperture diameter, and receiver aperture diameter. Total attenuation versus low visibility, average visibility, beam divergence, link range and rainfall rate were presented in this paper. Atmospheric attenuation （in dB） and scattering coefficient （in km-~） for several Yemeni main cities were explored. The study was concentrated on received power versus low and average visibilities and link range. Series of related simulation results were illustrated and discussed in this paper about the climate effects on performance of FSO communication systems in Yemen. Free space optical （FSO） communication has been considered as an alternative to radio relay link line-of- sight （LOS） communication systems. The total attenuation is a combination of atmospheric attenuation in the atmosphere and geometric losses. The purpose of this paper is to study the geometric loss versus link range （in kin）, divergence angle, transmitter aperture diameter, and receiver aperture diameter. Total attenuation versus low visibility, average visibility, beam divergence, link range and rainfall rate were presented in this paper. Atmospheric attenuation （in dB） and scattering coefficient （in km-~） for several Yemeni main cities were explored. The study was concentrated on received power versus low and average visibilities and link range. Series of related simulation results were illustrated and discussed in this paper about the climate effects on performance of FSO communication systems in Yemen.

作者 Abdulsalam G. ALKHOLIDI Khalil S. ALTOWIJ

机构地区 Faculty of Engineering

出处《Frontiers of Optoelectronics》 EI CSCD 2014年第1期91-101,共11页 光电子前沿（英文版）

关键词 free space optics （FSO） total attenuation geometric losses HAZE FOG RAIN receive power free space optics （FSO）, total attenuation,geometric losses, haze, fog, rain, receive power

分类号 TN929.1 [电子电信—通信与信息系统] P461 [天文地球—大气科学及气象学]

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Climate effects on performance of free space optical communication systems in Yemen

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