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BER performance of FSO communication system with differential signaling over correlated atmospheric turbulence fading

Xiaoyan Li, Xiaohui Zhao, Peng Zhang, Shoufeng Tong

2020China Communications20 citationsDOI

Abstract

Free space optical (FSO) communication system with differential signaling possesses the advantage of requiring no channel state information and avoiding computational load or link throughput reduction compared to the systems with conventional receivers. In this work, we investigate bit error rate (BER) performance of this system over partially and fully correlated atmospheric turbulence fading. In order to conduct the above analysis, we obtain a probability density functions (PDF) of the channel fading on the differential signals and derive our instantaneous BER using differential signaling scheme. Based on these results, we develop two closed-form mathematical expressions for the average BER under fully correlated and partially correlated fading in the convergent infinite series confirmed by Cauchy's ratio test. The accuracy of the derived BER expressions is demonstrated by the Monte Carlo simulations, and the analyses for the effects of the system parameters on the BER performance are provided.

Topics & Concepts

FadingChannel state informationBit error rateComputer scienceChannel (broadcasting)Free-space optical communicationCommunications systemAlgorithmProbability density functionTelecommunicationsSignal-to-noise ratio (imaging)Electronic engineeringMathematicsOptical communicationStatisticsWirelessEngineeringOptical Wireless Communication TechnologiesRadio Wave Propagation StudiesSatellite Communication Systems