# How Do Non-Ideal UAV Antennas Affect Air-to-Ground Communications?

**Authors:** M. G. Khoshkholgh, Keivan Navaie, Halim Yanikomeroglu, V. C. M. Leung,, and Kang. G. Shin

arXiv: 1902.08542 · 2019-02-25

## TL;DR

This paper investigates how non-ideal UAV antenna side-lobes cause interference and capacity loss in air-to-ground communications, highlighting the need for exclusion zones and parameter optimization to mitigate these effects.

## Contribution

It provides a comprehensive analysis of the impact of UAV antenna side-lobes on system performance, including interference effects, correlation among signals, and capacity loss, which was previously overlooked.

## Key findings

- Small side-lobe gains cause substantial interference to ground receivers.
- Large exclusion zones are necessary to protect ground users from interference.
- Antenna side-lobes induce high correlation among multiple receive antennas, limiting diversity gains.

## Abstract

Analysis of the performance of Unmanned Aerial Vehicle (UAV)-enabled communications systems often relies upon idealized antenna characteristic, where the side-lobe gain of UAVs' antenna is ignored. In practice, however, side-lobe cause inevitable interference to the ground users. We investigate the impact of UAVs' antenna side-lobe on the performance of UAV-enabled communication. Our analysis shows that even for a very small antenna's side-lobe gain, the ground receiver can experience substantial interference. We further show that a rather large exclusion zone is required to ensure a sufficient level of protection for the ground receiver. Nevertheless, in a multiple-antenna setting for the ground users, even when such a large exclusion zone was in place, UAVs' antenna side-lobe creates a high level of correlation among the interference signals received across receive antennas. Such a correlation limits the system ability to exploit channel diversity in a multiple-antenna setting for improving capacity. We then quantify the impact of UAVs' antenna side-lobes on the overall system performance by deriving the corresponding loss of the achieved capacity in various communications environments. We provide a new quantitative insight on the cost of adopting non-ideal UAV antenna on the overall capacity. Our analysis also shows that the capacity loss can be confined by careful selection of system parameters.

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Source: https://tomesphere.com/paper/1902.08542