Litcius/Paper detail

Matching Traffic Demand in GEO Multibeam Satellites: The Joint Use of Dynamic Beamforming and Precoding Under Practical Constraints

Haythem Chaker, Houcine Chougrani, Wallace A. Martins, Symeon Chatzinotas, Joël Grotz

2022IEEE Transactions on Broadcasting18 citationsDOIOpen Access PDF

Abstract

To adjust for the non-uniform spatiotemporal nature of traffic patterns, next-generation high throughput satellite (HTS) systems can benefit from recent technological advancements in the space-segment in order to dynamically design traffic-adaptive beam layout plans (ABLPs). In this work, we propose a framework for dynamic beamforming (DBF) optimization and adaptation in dynamic environments. Given realistic traffic patterns and a limited power budget, we propose a feasible DBF operation for a geostationary multibeam HTS network. The goal is to minimize the mismatch between the traffic demand and the offered capacity under practical constraints. These constraints are dictated by the traffic-aware design requirements, the on-board antenna system limitations, and the signaling considerations in the K-band. Noting that the ABLP is agnostic about the inherent inter-beam interference (IBI), we construct an interference simulation environment using irregularly shaped beams for a large-scale multibeam HTS system. To cope with IBI, the combination of on-board DBF and on-ground precoding is considered. For precoded and non-precoded HTS configurations, the proposed design shows better traffic-matching capabilities in comparison to a regular beam layout plan. Lastly, we provide trade-off analyses between system-level key performance indicators for different realistic non-uniform traffic patterns.

Topics & Concepts

PrecodingComputer scienceBeamformingThroughputGeostationary orbitKey (lock)Antenna (radio)Interference (communication)Real-time computingSatelliteElectronic engineeringComputer networkTelecommunicationsEngineeringMIMOAerospace engineeringChannel (broadcasting)Computer securityWirelessSatellite Communication SystemsWireless Communication Networks ResearchCooperative Communication and Network Coding