Three-Dimensional Deployment Optimization of UAVs Using Symbolic
We propose a novel systematic approach for the deployment optimization of unmanned aerial vehicles (UAVs). In this context, this study focuses on enhancing the coverage of UAV
3-D Deployment of UAV-BSs for Effective Communication Coverage
To address this issue, we introduce a novel distributed 3-D deployment approach for UAV-based base stations (UAV-BSs) called 3-D deployment for effective communication coverage
3D Deployment of Multiple UAV-Mounted Base Stations for UAV
This article investigates a communication system assisted by multiple UAV-mounted base stations (BSs), aiming to minimize the number of required UAVs and to improve the coverage rate by...
3-D Positioning and Resource Allocation for Multi-UAV Base
In this section, we provide simulation results to evaluate the performance of the proposed joint 3-D positioning and resource allocation scheme for multi-UAV communication networks aided by
Three-Dimensional Position Deployment of UAV Base Stations Based
A novel 3D deployment optimization model is proposed that enables flexible UAV-BS positioning in three dimensions (longitude, latitude, and altitude), accompanied by tailored optimization algorithms and
3-D Positioning and Resource Allocation for Multi-UAV Base Stations
Abstract: In this paper, we propose to deploy multiple unmanned aerial vehicle (UAV) mounted base stations to serve ground users in outdoor environments with obstacles.
IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS
el and complex structure characterized by stations relaying backhaul loads through point-to-point wireless links, forming a wireless 3D backhaul mesh. A key challenge is the strategic placement of
Dynamic 3-Dimensional Deployment of Unmanned Aerial Vehicle
To extend the coverage of traditional terrestrial communication networks and serve more diverse application scenarios, employing unmanned aerial vehicles (UAV) as aerial base stations has
A tutorial on AI-powered 3D deployment of drone base stations: State
In this article, we present a comprehensive tutorial on 3D location optimization of Drone-BSs. We first introduce UAV-assisted wireless networks along with their use cases and associated
Efficient three‐dimensional deployment of multiple unmanned aerial
UAVs can be used as flying base stations without an infrastructure to improve coverage, capacity, line-of-sight (LoS) connection, and rate performance in wireless communication.
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