Litcius/Paper detail

Application of Time-Varying Graph Theory over the Space Information Networks

Tao Zhang, Jiandong Li, Hongyan Li, Shun Zhang, Peng Wang, Haiying Shen

2020IEEE Network57 citationsDOI

Abstract

SIN is constructed to support real-time data acquisition, massive data transmission and processing, and systematized information services. Different from static networks, both the network topologies and the available network resources are dynamic in SIN. However, the existing networking technologies treat SIN as segmented static networks, and ignore the relationship among different segmented subnetworks, which results in low resource utilization and poor transmission QoS. This article exploits the time-varying graph theory to characterize and allocate the dynamic resources of SIN. We first introduce the overall SIN architecture, and discuss its key technologies in terms of network slicing and dynamic routing. Then, we construct a novel STAG to precisely depict the multi-dimensional time-varying resources and reveal their connection relationships in SIN. With STAG, we propose the dynamic network slicing strategy to build the dedicated network slices for different services, and design the intra-slice routing scheme to guarantee the service transmission QoS. Simulation results demonstrate our methods can complete more space missions with higher resource utilization. Finally, we discuss the promising future of the time-varying graph theory.

Topics & Concepts

Computer scienceSlicingExploitDistributed computingNetwork topologyQuality of serviceComputer networkRouting (electronic design automation)GraphNetwork architectureRouting tableDynamic network analysisResource (disambiguation)Theoretical computer scienceRouting protocolWorld Wide WebComputer securitySoftware-Defined Networks and 5GOpportunistic and Delay-Tolerant NetworksCaching and Content Delivery