Experimental Evaluation of Air-to-Ground VHF Band Communication for UAV Relays

TL;DR

This paper presents experimental evidence that UAVs equipped with SDRs can relay VHF signals over distances exceeding 50 km, demonstrating their potential for wide-area emergency communication.

Contribution

It provides the first experimental validation of VHF signal relaying via UAVs at high altitudes, showing significant range improvements for ground communication.

Findings

Successful VHF signal reception over 50 km distance

UAV-based relaying outperforms ground-based communication

Signals affected by obstacles and multipath effects

Abstract

Unmanned Aerial Vehicles (UAVs) are a disruptive technology that is transforming a range of industries. Because they operate in the sky, UAVs are able to take advantage of strong Line-of-Sight (LoS) channels for radio propagation, allowing them to communicate over much larger distances than equivalent hardware located at ground level. This has attracted the attention of organisations such as the Irish Defence Forces (DF), with whom we are developing a UAV-based radio relay system as part of the MISTRAL project. This relay system will support digital Very High Frequency (VHF) band communication between ground personnel, while they are deployed on missions. In this paper we report on the initial set of experimental measurements which were carried out to verify the feasibility of VHF signal relaying via UAV. In our experiments, a UAV carrying a lightweight Software-Defined Radio (SDR) receiver is positioned at a height of 500 meters above ground, while two 5W transmitters travel in vehicles on the ground. The SDR receiver measures the received signal power, while the Global Positioning System (GPS) coordinates of the vehicles are logged. This is combined to measure the signal pathloss over distance. Our results show that the signal is received successfully at distances of over 50 kilometers away. While the signals still appear to suffer from a degree of obstacle blockage and multipath effects, these communication ranges are a substantial improvement over the ground communication baseline, and validate the use of UAVs to support wide area emergency communication.