Environment-Aware Deployment of Wireless Drones Base Stations with Google Earth Simulator

TL;DR

This paper presents a simulator leveraging Google Earth data to optimize UAV deployment for cellular coverage, significantly improving coverage and energy efficiency by exploiting geographical information.

Contribution

The paper introduces a novel environment-aware UAV deployment framework using Google Earth data, optimizing coverage, drone count, and energy consumption in cellular networks.

Findings

Coverage improved by a factor of 2

Energy efficiency increased by 65%

Optimal number of drones identified

Abstract

In this paper, a software-based simulator for the deployment of base station-equipped unmanned aerial vehicles (UAVs) in a cellular network is proposed. To this end, the Google Earth Engine platform and its included image processing functions are used to collect geospatial data and to identify obstacles that can disrupt the line-of-sight (LoS) communications between UAVs and ground users. Given such geographical information, three environment-aware optimal UAV deployment scenarios are investigated using the developed simulator. In the first scenario, the positions of UAVs are optimized such that the number of ground users covered by UAVs is maximized. In the second scenario, the minimum number of UAVs needed to provide full coverage for all ground users is determined. Finally, given the load requirements of the ground users, the total flight time (i.e., energy) that the UAVs need to completely serve the ground users is minimized. Simulation results using a real area of the Virginia Tech campus show that the proposed environment-aware drone deployment framework with Google Earth input significantly enhances the network performance in terms of coverage and energy consumption, compared to classical deployment approaches that do not exploit geographical information. In particular, the results show that the proposed approach yields a coverage enhancement by a factor of 2, and a 65% improvement in energy-efficiency. The results have also shown the existence of an optimal number of drones that leads to a maximum wireless coverage performance.