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Ground-to-Air Communications Beyond 5G: A Coordinated Multipoint Transmission Based on Poisson-Delaunay Triangulation

Yan Li, Minghua Xia

2022IEEE Transactions on Wireless Communications22 citationsDOI

Abstract

This paper designs a novel ground-to-air communication scheme to serve unmanned aerial vehicles (UAVs) through legacy terrestrial base stations (BSs). In particular, a tractable coordinated multi-point (CoMP) transmission based on the geometry of Poisson-Delaunay triangulation is developed, which provides reliable and seamless connectivity for UAVs. An effective dynamic frequency allocation scheme is designed to eliminate inter-cell interference by using the theory of circle packing. For exact performance evaluation, the handoff probability of a typical UAV is characterized, and then the coverage probability with handoffs is attained. Simulation and numerical results corroborate that the proposed scheme outperforms the conventional CoMP scheme with three nearest cooperating BSs in terms of handoff and coverage probabilities. Moreover, as each UAV has a fixed and unique CoMP BS set, it avoids the real-time dynamic BS searching process, thus reducing the feedback overhead.

Topics & Concepts

Delaunay triangulationComputer scienceOverhead (engineering)Base stationStochastic geometryHandoverPoisson point processTransmission (telecommunications)TriangulationInterference (communication)Scheme (mathematics)WirelessReal-time computingCoverage probabilityAlgorithmTopology (electrical circuits)Mathematical optimizationPoisson distributionComputer networkTelecommunicationsMathematicsChannel (broadcasting)EngineeringElectrical engineeringOperating systemGeometryStatisticsConfidence intervalMathematical analysisUAV Applications and OptimizationSatellite Communication SystemsAdvanced Wireless Communication Technologies
Ground-to-Air Communications Beyond 5G: A Coordinated Multipoint Transmission Based on Poisson-Delaunay Triangulation | Litcius