The advent of flying ad hoc networks (FANETs) has opened an opportunity to create new added-value services. Even though it is clear that these networks share common features with its predecessors, e.g., with mobile ad hoc networks and with vehicular ad hoc networks, there are several unique characteristics that make FANETs different. These distinctive features impose a series of guidelines to be considered for its successful deployment. Particularly, the use of FANETs for telecommunication services presents demanding challenges in terms of quality of service, energy efficiency, scalability, and adaptability. The proper use of models in research activities will undoubtedly assist to solve those challenges. Therefore, in this paper, we review mobility, positioning, and propagation models proposed for FANETs in the related scientific literature. A common limitation that affects these three topics is the lack of studies evaluating the influence that the unmanned aerial vehicles (UAV) may have in the on-board/embedded communication devices, usually just assuming isotropic or omnidirectional radiation patterns. For this reason, we also investigate in this work the radiation pattern of an 802.11 n/ac (WiFi) device embedded in a UAV working on both the 2.4 and 5 GHz bands. Our findings show that the impact of the UAV is not negligible, representing up to a 10 dB drop for some angles of the communication links.
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机译:飞行自组织网络(FANET)的出现为创建新的增值服务提供了机会。即使很明显,这些网络与其前身(例如,移动自组织网络和车载自组织网络)具有共同的特征,但仍有几个独特的特征使FANET有所不同。这些独特的功能为成功部署提供了一系列指导方针。特别是,将FANET用于电信服务在服务质量,能效,可伸缩性和适应性方面提出了严峻的挑战。在研究活动中正确使用模型无疑将有助于解决这些挑战。因此,在本文中,我们回顾了相关科学文献中为FANET提出的移动性,定位和传播模型。影响这三个主题的常见局限性是缺乏评估无人飞行器(UAV)对机载/嵌入式通信设备可能产生的影响的研究,通常仅假设各向同性或全向辐射模式。因此,我们还在这项工作中研究了嵌入在工作于2.4 GHz和5 GHz频段的UAV中的802.11 n / ac(WiFi)设备的辐射方向图。我们的发现表明,无人机的影响不可忽略,对于某些通信链路角度而言,UAV的下降高达10 dB。
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