A new switching scheme for hybrid FSO/RF communication in the presence of strong atmospheric turbulence

Hybrid FSO/RF communication systems make use of an RF link with OWC link to achieve higher reliability along with high data rate communication. Both these (OWC and RF) channels are complementary in nature. We propose and analyze a new switching scheme for the hybrid FSO/RF system, in which both FSO...

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Veröffentlicht in:	Photonic network communications 2019-02, Vol.37 (1), p.53-62
Hauptverfasser:	Shrivastava, Shreesh Kumar, Sengar, Sujata, Singh, Shree Prakash
Format:	Artikel
Sprache:	eng
Schlagworte:	Atmospheric turbulence Bit error rate Characterization and Evaluation of Materials Communication Computer Communication Networks Computer Science Deactivation Electrical Engineering Exact solutions Hybrid systems Mathematical analysis Optical wireless Original Paper Radio frequency Switching
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description	Hybrid FSO/RF communication systems make use of an RF link with OWC link to achieve higher reliability along with high data rate communication. Both these (OWC and RF) channels are complementary in nature. We propose and analyze a new switching scheme for the hybrid FSO/RF system, in which both FSO and RF links are emphatically activated or deactivated according to the channel conditions. A single threshold level is decided for the Rayleigh-faded RF link, and two threshold levels are defined for FSO link under strong atmospheric turbulence conditions. Closed-form analytical expressions have been obtained for the bit error rate and outage probability for the proposed system.
doi_str_mv	10.1007/s11107-018-0792-6
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subjects	Atmospheric turbulence Bit error rate Characterization and Evaluation of Materials Communication Computer Communication Networks Computer Science Deactivation Electrical Engineering Exact solutions Hybrid systems Mathematical analysis Optical wireless Original Paper Radio frequency Switching
title	A new switching scheme for hybrid FSO/RF communication in the presence of strong atmospheric turbulence
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