Unmanned aerial vehicles (UAVs) and Terahertz (THz) technology are envisioned to play paramount roles in next-generation wireless communications. Hence, this paper presents a novel secure UAV-assisted mobile relaying system operating at THz bands for data acquisition from multiple ground user equipments towards a destination. We assume that the UAV-mounted relay may act, besides providing relaying services, as a potential adversary called the untrusted UAV relay. To safeguard end-to-end communications, we present a secure two-phase transmission strategy with cooperative jamming. Then, we formulate an optimization problem in terms of a new measure $-$ secrecy energy efficiency (SEE), defined as the ratio of achievable average secrecy rate to average system power consumption, which enables us to obtain the best possible security level while taking UAV's inherent flight power limitation into account. This optimization problem leads to a joint design of key system parameters, including UAV's trajectory and velocity, communication scheduling, and power allocations. Since the formulated problem is a mixed-integer nonconvex optimization and computationally intractable, we propose alternative algorithms to solve it efficiently via greedy/sequential block coordinated descent, successive convex approximation, and non-linear fractional programming techniques. Numerical results demonstrate significant SEE performance improvement of our designs when compared to other known benchmarks.
翻译:无人驾驶航空飞行器(UAVs)和Terahertz(THz)技术预计将在下一代无线通信中发挥重要作用。因此,本文件展示了一个新的安全可靠的无人驾驶飞行器(UAV)辅助移动中继系统,在THZ波段运行,从多个地面用户设备获取数据到目的地。我们认为,无人驾驶飞行器(UAV)上架的中继器除了提供中继服务外,还可以作为潜在的对手发挥作用,称为无人托管无人驾驶飞行器中继。为了保障终端至终端通信,我们提出了一个安全的两阶段传输战略,同时合作干扰。然后,我们提出了一个新措施(美元保密能效)的最优化问题,其定义是可实现的平均保密率与平均系统电耗的比率,使我们能够在考虑UAVSV固有的飞行能力限制的同时获得尽可能高的安保水平。这种优化问题导致对关键系统参数的联合设计,包括UAVAV的轨迹和速度、通信时间安排和电力分配。由于所拟订的问题是一个混合的不兼容性非通信优化和计算性核心能源效率(SEEEA)的新措施,我们提议替代的算算算算算算算算算方法,以便通过不甚高的升级方法,通过贪婪/CREERECRECRECREst-