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Analytical Channel Model and Link Design Optimization for Ground-to-HAP Free-Space Optical Communications

Hossein Safi, Akbar Dargahi, Julian Cheng, Majid Safari

2020Journal of Lightwave Technology124 citationsDOIOpen Access PDF

Abstract

Integrating high altitude platforms (HAPs) and free space optical (FSO) communications is a promising solution to establish high data rate aerial links for the next generation wireless networks. However, practical limitations such as pointing errors and angle-of-arrival (AOA) fluctuations of the optical beam due to the orientation deviations of hovering HAPs make it challenging to implement HAP-based FSO links. For a ground-to-HAP FSO link, tractable, closed-form statistical channel models are derived in this article to simplify optimal design of such systems. The proposed models include the combined effects of atmospheric turbulence regimes (i.e., log-normal and gamma-gamma), pointing error induced geometrical loss, pointing jitter variance caused by beam wander, detector aperture size, beam-width, and AOA fluctuations of the received optical beam. The analytical expressions are corroborated by performing Monte--Carlo simulations. Furthermore, closed-form expressions for the outage probability of the considered link under different turbulence regimes are derived. Detailed analysis is carried out to optimize the transmitted laser beam and the field-of-view of the receiver for minimizing outage probability under different channel conditions. The obtained analytical results can be applied to finding the optimal parameter values and designing ground-to-HAP FSO links without resorting to time-consuming simulations.

Topics & Concepts

Free-space optical communicationJitterChannel (broadcasting)Optical wirelessComputer scienceBeam (structure)Monte Carlo methodOptical linkDetectorElectronic engineeringOptical communicationWirelessAperture (computer memory)PhysicsOpticsEngineeringOptical fiberTelecommunicationsMathematicsAcousticsStatisticsOptical Wireless Communication TechnologiesUAV Applications and OptimizationRadio Wave Propagation Studies