Litcius/Paper detail

Intersatellite Laser Link Planning for Reliable Topology Design in Optical Satellite Networks: A Networking Perspective

Wei Wang, Yongli Zhao, Yuanjian Zhang, Xinyi He, Yue Liu, Jie Zhang

2022IEEE Transactions on Network and Service Management56 citationsDOI

Abstract

The development of reusable rockets makes it possible to launch a massive number of low earth orbit satellites for Internet access. These satellites are expected to be connected by inter-satellite links (ISLs) to provide global Internet service to end-users on the surface of the earth. From the infrastructure’s perspective, the ISLs can be implemented with lasers, forming the optical satellite networks. The design of terrestrial optical networks is usually traffic-driven, meaning more links/bandwidth are deployed to the traffic-intensive areas. But, the orbiting nature of satellites determines that laser ISLs are also moving at high velocities, making the presence of corresponding bandwidth loosed coupled with a specific area. As a result, the traffic-driven network design methodology will be inapplicable to the optical satellite networks. In this work, we model the optical satellite networks and define the laser ISL planning problem, Accordingly, we propose an ISL removal algorithm to remove parts of the ISLs from the grid-mesh topology to improve the average bandwidth utilization ratio (i.e., bandwidth efficiency) while maintaining networks’ reliability and availability. We conduct a simulation study based on the Starlink constellation to evaluate the grid-mesh topology and to investigate the proposed algorithm’s impact on the network performance. Results show that the bandwidth resource in the grid-mesh topology can hardly be used efficiently and removing certain ISLs properly can improve the bandwidth efficiency of optical satellite networks significantly. We also gain another interesting insight that maintaining too many ISLs will not improve, but degrade the network availability.

Topics & Concepts

Computer scienceSatellite constellationBandwidth (computing)Computer networkNetwork topologyDynamic bandwidth allocationThe InternetDistributed computingMesh networkingSatelliteTelecommunicationsWorld Wide WebAerospace engineeringEngineeringWirelessSatellite Communication SystemsOptical Wireless Communication TechnologiesAdvanced Optical Network Technologies