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A Routing Algorithm Based on Link State Information for LEO Satellite Networks

Lu Zhang, Feng Yan, Yueyue Zhang, Tao Wu, Yaping Zhu, Weiwei Xia, Lianfeng Shen

202037 citationsDOI

Abstract

Low earth orbit (LEO) satellite networks can provide global coverage, low-latency services to users. The satellite networks are multi-hop networks, and the dynamic characteristics of the networks bring great challenges to design efficient routing algorithms. In this paper, we proposed an improved routing algorithm based on inter-satellite link(ISL) state information and it is on-board autonomous control. The routing algorithm is divided into three phases, namely topology establishment phase, routing calculation phase and link failure response phase. Satellites make routing decisions for each hop based on the link state information with neighbor satellites and the network topology. The simulation results show that our routing algorithm has significant advantages in delivery ratio and end-to-end delay.

Topics & Concepts

Computer scienceComputer networkLink-state routing protocolStatic routingDistributed computingPolicy-based routingDestination-Sequenced Distance Vector routingDynamic Source RoutingRouting protocolGeographic routingHierarchical routingRouting tableAlgorithmTopology (electrical circuits)Routing (electronic design automation)EngineeringElectrical engineeringSatellite Communication SystemsMobile Agent-Based Network ManagementOpportunistic and Delay-Tolerant Networks
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