Abstract
This article considers an unmanned aerial vehicles (UAVs) communication network, where UAV operate as an aerial mobile relay between a source and a destination of the network. To capture the “timeliness” of the received information at the destination node, a new performance metric named Age of Information (AoI) is considered. In addition, a short packet communication scheme maintains low latency in the proposed UAV wireless communication system. The finite block-length theory investigates the performances of the short packet communications scheme in the UAV-assisted wireless communications system. In this article, the Average AoI (AAoI) is estimated by applying the stochastic hybrid systems (SHSs) model. The SHS model comprises discrete states represents events that reset the AoI process and continuously dynamics that represent linearly growing age processes. Finally, a closed-form expression for the AAoI of the proposed UAV wireless communication system is derived and it can be used to estimate the optimal altitude, block length, and other parameters.
Highlights
IntroductionI N recent years, the importance of the unmanned aerial vehicles (UAV)-assisted communication network has grown as a part of mobile networks such as beyond fifth-generation (5G)
We extend our previous work on ultra-reliable low latency communication (URLLC) enabled decode and forward relay [25] by analyzing unmanned aerial vehicles (UAV) communication networks where it has different channel statistics compare with terrestrial wireless channels
To determine whether a UAV-assisted relaying system is still significant in terms of information freshness, we estimated the Average Age of Information (AAoI) for an URLLC-enabled UAV-assisted communication system and derived the closed-form expressions for the AAoI
Summary
I N recent years, the importance of the UAV-assisted communication network has grown as a part of mobile networks such as beyond fifth-generation (5G). Operating a UAV as a mobile relay increases the the reliability and freshness of the information satisfying requirements of future wireless communication and for the advancements of internet-of-things (IoT) applications [1], [2], [3], [4]. Part of this work is presented at the IEEE 93rd Vehicular Technology Conference, 25 April 2021, Finland, [25]
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