Fine-Grained Resource Management for Edge Computing Satellite Networks

2019 IEEE Global Communications Conference (GLOBECOM) Pub Date : 2019-12-01 DOI:10.1109/GLOBECOM38437.2019.9013467

Feng Wang, Dingde Jiang, Sheng Qi, Chen Qiao, H. Song

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引用次数: 12

Abstract

The low earth orbit (LEO) satellite network has been a valuable architecture due to its characteristics of wide coverage and low transmission delay. Utilizing LEO satellites as edge computing nodes to provide real-time services for access terminals will be the indispensable paradigm of integrated space-air-ground network. However, it is not easy to design resource management strategies in edge computing satellite (ECS), considering different accessing planes and resource requirements of terminals. Moreover, a comprehensive analysis of the network topology, relative motion, and available resources is required to establish ECS collaborative networks. To address these problems, the dynamic resource allocation architecture and advanced K-means algorithm (AKA) in ECSs are proposed. Then, the extended graph model and breadth-first-search-based spanning tree (BFST) algorithm are utilized to guide the inter-satellite link (ISL) construction. As a result, the ECS collaborative network is established with fine-grained resource management. Simulation results show that the proposed fine- grained resource management scheme is feasible and effective.

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边缘计算卫星网络的细粒度资源管理

近地轨道卫星网络以其覆盖范围广、传输时延低的特点成为一种有价值的网络结构。利用低轨道卫星作为边缘计算节点，为接入终端提供实时服务，将是天空地一体化网络不可缺少的模式。然而，考虑到不同的访问平面和终端的资源需求，边缘计算卫星(ECS)的资源管理策略设计并不容易。此外，建立ECS协同网络需要对网络拓扑结构、相对运动和可用资源进行综合分析。为了解决这些问题，提出了ECSs的动态资源分配架构和先进的K-means算法。然后利用扩展图模型和基于宽度优先搜索的生成树(BFST)算法指导星间链路(ISL)的构建;因此，建立了具有细粒度资源管理的ECS协作网络。仿真结果表明，所提出的细粒度资源管理方案是可行和有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE Global Communications Conference (GLOBECOM)

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