Remote and Rural Connectivity via Multi-tier Systems through SDN-Managed Drone Networks

MILCOM 2022 - 2022 IEEE Military Communications Conference (MILCOM) Pub Date : 2022-11-28 DOI:10.1109/MILCOM55135.2022.10017513

Alvaro del Aguila, Jonathan Valdez Mendoza, S. Mandavilli, J. Mcnair

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Abstract

Rapid technological advancements in wireless networks have promised reliable and fast Internet connectivity across the globe. However, a challenging barrier to global connectivity is the lack of connections in rural, remote or damaged locations due to lack of cellular infrastructure. This paper proposes the use of drones, managed by software-defined network control, to provide wireless networking capabilities to such areas. Software-defined networks (SDN) can provide management of routing tables, protocols and algorithms for the purposes of path selection, energy preservation, quality of service, or security. We provide a selection of hardware that can be used to develop a suitable experimental communications-based drone network. Simulations were conducted using Mininet-WiFi and the ONOS controller to gauge the performance for a varying number of drones. Using our controller, we can achieve a less than 25% packet loss for WiFi connectivity delivered using 20 low cost, low power drones as access points.

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通过sdn管理的无人机网络通过多层系统实现远程和农村连接

无线网络技术的快速发展已经保证了全球范围内可靠和快速的互联网连接。然而，全球连接的一个具有挑战性的障碍是，由于缺乏蜂窝基础设施，农村、偏远或受损地区缺乏连接。本文建议使用无人机，由软件定义网络控制管理，为这些区域提供无线网络功能。软件定义网络(SDN)可以提供路由表、协议和算法的管理，以达到路径选择、节能、服务质量或安全的目的。我们提供了一系列硬件，可用于开发合适的基于实验通信的无人机网络。使用mini - wifi和ONOS控制器进行了模拟，以衡量不同数量无人机的性能。使用我们的控制器，我们可以实现WiFi连接的数据包丢失低于25%，使用20个低成本，低功耗无人机作为接入点。

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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MILCOM 2022 - 2022 IEEE Military Communications Conference (MILCOM)

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