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Satellite-Terrestrial Integrated Edge Computing Networks: Architecture, Challenges, and Open Issues

Renchao Xie, Qinqin Tang, Qiuning Wang, Xu Liu, F. Richard Yu, Tao Huang

2020IEEE Network269 citationsDOI

Abstract

STN has been considered a novel network architecture to accommodate a variety of services and applications in future networks. Being a promising paradigm, MEC has been regarded as a key technology-enabler to offer further service innovation and business agility in STN. However, most of the existing research in MEC enabled STN regards a satellite network as a relay network, and the feasibility of tasks processing directly on the satellites is largely ignored. Moreover, the problem of multi-layer edge computing architecture design and heterogeneous edge computing resource co-scheduling, have not been fully considered. Therefore, different from previous works, in this article, we propose a novel architecture named STECN, in which computing resources exist in multi-layer heterogeneous edge computing clusters. The detailed functional components of the proposed STECN are discussed, and we present the promising technical challenges, including meeting QoE requirements, cooperative computation offloading, multi-node task scheduling, mobility management and fault/failure recovery. Finally, some potential research issues for future research are highlighted.

Topics & Concepts

Computer scienceEdge computingDistributed computingScheduling (production processes)Computer networkEdge deviceNetwork architectureEnablingComputer architectureEnhanced Data Rates for GSM EvolutionTelecommunicationsCloud computingPsychotherapistOperations managementPsychologyOperating systemEconomicsIoT and Edge/Fog ComputingSatellite Communication SystemsAge of Information Optimization
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