Litcius/Paper detail

QoS-Centric Handover for Civil Aviation Aircraft Access in Ultra-Dense LEO Satellite Networks

Yilei Wang, Xiaohan Qin, Zhixuan Tang, Ting Ma, Xin Zhang, Haibo Zhou

20222022 IEEE/CIC International Conference on Communications in China (ICCC)11 citationsDOI

Abstract

Recently, multiple ultra-dense low earth orbit (LEO) satellite constellations have been launched, which can provide global high-bandwidth services for civil aviation. However, the high mobility of aircraft and satellites presents great challenges to the handover scheme design in the ultra-dense LEO satellite networks (UDLSNs). In this paper, considering the number of handovers, load balance, and link reliability, we investigate the quality of service (QoS)-centric satellite handover problem for civil aviation aircraft access in the UDLSN. Particularly, the satellite handover problem for multiple aircraft is formulated as a local cooperation game. In this game, each aircraft determines which satellite to handover by cooperating with others in potential interference relationships. By proving that the local cooperation game is an exact potential game, we propose an improved distributed best response (IDBR) algorithm with a faster convergence rate and a collaborative mixed handover strategy (CMHS) iteration algorithm with more possibilities to obtain the optimal solution, respectively. Numerical simulation results show that the proposed schemes can guarantee the QoS requirements of civil aviation and enhance the network utility.

Topics & Concepts

HandoverComputer scienceCivil aviationSatelliteQuality of serviceQuasi-Zenith Satellite SystemConstellationComputer networkCommunications satelliteBandwidth (computing)AviationTelecommunicationsSatellite systemAerospace engineeringEngineeringGlobal Positioning SystemAstronomyPhysicsGNSS applicationsSatellite Communication SystemsAdvanced MIMO Systems OptimizationFull-Duplex Wireless Communications