Free Space Optics as Full Duplex Fronthauling for Drone-Assisted Mobile Networks

2023 32nd Wireless and Optical Communications Conference (WOCC) Pub Date : 2023-05-05 DOI:10.1109/WOCC58016.2023.10139511

Xiang Sun, Liang Yu, Abee F. Alazzwi

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引用次数: 1

Abstract

Drone-assisted mobile networks have been proposed to quickly and flexibly deploy drones over any places of interest (PoI) to relay traffic between a remote terrestrial base station (TBS) and the users in the PoI. Here, a drone is considered to be a small-cell base station that is capable to be deployed very close to users in order to provide a high access network capacity. However, owing to the long distance and high traffic load, the fronthaul link between the TBS and the drone would be the bottleneck of the network. Free space optical (FSO) communications have been proposed as a potential solution to increase the fronthaul link capacity. As compared to RF-based fronthaul link solutions, FSO can achieve higher link capacity over a long distance, lower licensing cost and interference, and more reliable communications to resist interception and eavesdropping, and thus could be more suitable to be applied as the fronthaul link solution. However, there are many existing and unveiled challenges to apply FSO as a full duplex fronthaul link for a drone-assisted mobile network. In this paper, we will explore these challenges and investigate related solutions.

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自由空间光学作为无人机辅助移动网络的全双工前路由

无人机辅助移动网络被提出在任何兴趣点(PoI)上快速灵活地部署无人机，以在远程地面基站(TBS)和PoI中的用户之间中继流量。在这里，无人机被认为是一个小型基站，能够部署在离用户非常近的地方，以提供高接入网络容量。然而，由于TBS与无人机之间的距离长，流量负载大，前传链路将成为网络的瓶颈。自由空间光通信(FSO)被认为是增加前传链路容量的一种潜在解决方案。与基于射频的前传链路解决方案相比，FSO可以实现更高的长距离链路容量，更低的许可成本和干扰，更可靠的通信以抵抗拦截和窃听，因此更适合作为前传链路解决方案。然而，将FSO应用于无人机辅助移动网络的全双工前传链路存在许多现有的和未公布的挑战。在本文中，我们将探讨这些挑战并研究相关的解决方案。

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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2023 32nd Wireless and Optical Communications Conference (WOCC)

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