In this work, we study the trade-off between the reliability and the investment cost of an unmanned aerial system (UAS) consisting of a set of unmanned aerial vehicles (UAVs) carrying radio access nodes, called portable access points (PAPs)), deployed to serve a set of ground nodes (GNs). Using the proposed algorithm, a given geographical region is equivalently represented as a set of circular regions, where each circle represents the coverage region of a PAP. Then, the steady-state availability of the UAS is analytically derived by modelling it as a continuous time birth-death Markov decision process (MDP). Numerical evaluations show that the investment cost to guarantee a given steady-state availability to a set of GNs can be reduced by considering the traffic demand and distribution of GNs.
翻译:在这项工作中,我们研究了无人驾驶航空系统(UAS)的可靠性与投资成本之间的权衡问题,该系统包括一套载有无线电接入节点的无人驾驶航空器(无人驾驶飞行器),称为便携式接入点,用于为一组地面节点服务。使用拟议的算法,一个特定地理区域相当于一组循环区域,其中每个圆圈代表PAP的覆盖区域。然后,通过模拟该无人驾驶航空系统的连续时间诞生-死亡马尔科夫决定程序,从分析中得出了该无人驾驶航空系统的稳定性状态。数字评估表明,考虑到GN的交通需求和分布,可以降低保证向一组GN提供一定稳定状态的投资成本。
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