In the 6th generation mobile communication system(6G)era,a large number of delay-sensitive and computation-intensive applications impose great pressure on resource-constrained Internet of things(IoT)devices.Aerial edge computing is envisioned as a promising and cost-effective solution,especially in hostile environments without terrestrial infrastructures.Therefore,this paper focuses on integrating aerial edge computing into 6G for providing ubiquitous computing services for IoT devices.This paper first presents the layered network architecture of aerial edge computing for 6G.The benefits,potential applications,and design challenges are also discussed in detail.Next,several key techniques like unmanned aerial vehicle(UAV)deployment,operation mode,offloading mode,caching policy,and resource management are highlighted to present how to integrated aerial edge computing into 6G.Then,the joint UAV deployment optimization and computation offloading method is designed to minimize the computing delay for a typical aerial edge computing network.Numerical results reveal the significant delay reduction of the proposed method compared with the other benchmark methods.Finally,several open issues for aerial edge computing in 6G are elaborated to provide some guidance for future research.

Mao Sun;Zhang Yan

College of Computer Science,Sichuan Normal University,Chengdu 610101,China;Department of Informatics,University of Oslo,Oslo 0316,Norway

中国邮电高校学报（英文版）

[1]Mao Sun;Zhang Yan-.Aerial edge computing for 6G)[J].中国邮电高校学报（英文版）,2022(01):50-63

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