Beyond Conic Section Mainlobe Coverage for Unmanned Aerial Vehicle

TL;DR

This paper proposes a novel method to enhance aerial coverage for cellular-connected drones by identifying and ignoring sidelobe signals, enabling cost-efficient and continuous coverage using existing networks.

Contribution

It introduces a new approach to handle sidelobe interference in cellular networks for drones, improving aerial coverage without additional infrastructure.

Findings

Conventional networks can provide wide aerial coverage with the proposed sidelobe handling method.

The method improves coverage quality and continuity for drones.

Simulation results validate the effectiveness of the approach.

Abstract

The cellular-connected drone market is one of the most promising markets of 5G. However, it still accounts for a small share of overall telecommunication market, and it is unlikely to increase significantly for the foreseeable future. Deploying dedicated network with up-tilted antennas can be an option, but the monetary cost of dedicated network directly impacts the acceptance of mobile operators. Therefore, cost-efficient aerial coverage solutions must be developed. Reusing network for terrestrial coverage is a cost-efficient approach for aerial coverage, but several critical challenges caused by antenna sidelobe should be solved. In this paper, a novel method for aerial coverage is proposed. By tweaking the measurement report handling mechanism, signals from sidelobes reported by drones above the predefined height can be identified and ignored. Simulation results show that the conventional cellular network with the proposed method can provide wide and continuous aerial coverage with satisfactory quality.