UAV-Aided Wireless Energy Transfer for Sustaining Internet of Everything in 6G

IF 4.4 2区 地球科学 Q1 REMOTE SENSING
Drones Pub Date : 2023-10-09 DOI:10.3390/drones7100628
Yueling Che, Zeyu Zhao, Sheng Luo, Kaishun Wu, Lingjie Duan, Victor C. M. Leung
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引用次数: 1

Abstract

Unmanned aerial vehicles (UAVs) are a promising technology used to provide on-demand wireless energy transfer (WET) and sustain various low-power ground devices (GDs) for the Internet of Everything (IoE) in sixth generation (6G) wireless networks. However, an individual UAV has limited battery energy, which may confine the required wide-range mobility in a complex IoE scenario. Furthermore, the heterogeneous GDs in IoE applications have distinct non-linear energy harvesting (EH) properties and diversified energy and/or communication demands, which poses new requirements on the WET and trajectory design of UAVs. In this article, to reflect the non-linear EH properties of GDs, we propose the UAV’s effective-WET zone (E-zone) above each GD, where a GD is assured to harvest non-zero energy from the UAV only when the UAV transmits into the E-zone. We then introduce the free space optics (FSO) powered UAV with enhanced mobility, and propose its adaptive WET for the GDs with non-linear EH. Considering the time urgency of the different energy demands of the GDs, we propose a new metric called the energy latency time, which is the time duration that a GD can wait before becoming fully charged. By proposing the energy-demand aware UAV trajectory, we further present a novel hierarchical WET scheme to meet the GDs’ diversified energy latency time. Moreover, to efficiently sustain IoE communications, the multi-UAV enabled WET is employed by unleashing their cooperative diversity gain and the joint design with the wireless information transfer (WIT). The numerical results show that our proposed multi-UAV cooperative WET scheme under the energy-aware trajectory design achieves the shortest task completion time as compared to the state-of-the-art benchmarks. Finally, the new directions for future research are also provided.
支持6G万物互联的无人机辅助无线能量传输
无人驾驶飞行器(uav)是一种很有前途的技术,用于提供按需无线能量传输(WET),并为第六代(6G)无线网络中的万物互联(IoE)维持各种低功耗地面设备(GDs)。然而,单个无人机的电池能量有限,这可能会限制在复杂的物联网场景中所需的大范围机动性。此外,物联网应用中的异构GDs具有明显的非线性能量收集(EH)特性和多样化的能量和/或通信需求,这对无人机的WET和轨迹设计提出了新的要求。在本文中,为了反映GDs的非线性EH特性,我们在每个GDs上方提出了无人机的有效湿区(E-zone),在E-zone中,只有当无人机传输到E-zone时,GDs才能从无人机获取非零能量。然后介绍了自由空间光学(FSO)驱动的增强机动性无人机,并提出了具有非线性EH的GDs的自适应WET。考虑到GDs不同能量需求的时间紧迫性,我们提出了一个新的度量,称为能量延迟时间,它是一个GDs在充满电之前可以等待的时间。在提出能量需求感知无人机轨迹的基础上,进一步提出了一种新的分层WET方案,以满足GDs多样化的能量延迟时间。此外,为了有效地维持物联网通信,通过释放其合作分集增益和与无线信息传输(WIT)的联合设计,采用多无人机支持的物联网通信。数值计算结果表明,在能量感知轨迹设计下,我们提出的多无人机协同WET方案与现有基准相比,任务完成时间最短。最后,对今后的研究方向进行了展望。
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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来源期刊
Drones
Drones Engineering-Aerospace Engineering
CiteScore
5.60
自引率
18.80%
发文量
331
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