Litcius/Paper detail

Backhaul-Constrained Coverage Analysis of Integrated High and Low Altitude Platforms Aerial Communication System in Post-Disaster Areas

Yikun Zhao, Fanqin Zhou, Lei Feng, Wenjing Li, Yao Sun, Muhammad Ali Imran

2023IEEE Communications Letters21 citationsDOI

Abstract

Coverage analysis of aerial communication networks based on high altitude platforms (HAPs) and low altitude platforms (LAPs) is of great significance to understand the service provisioning capability of aerial base stations. This letter uses stochastic geometry to analyze network coverage of an integrated HAP and LAP (IHL) system with respect to backhaul constraints, where LAPs aim to provide services for ground user equipments in the malfunction area and a HAP is to provide backhaul connectivity for LAPs. Based on stochastic geometry theory, the analytical framework of the IHL system coverage is derived along with the analysis on the impact of some key parameters, such as aerial platform altitudes and LAP densities. The derived analytical framework can also provide insights for the backhaul design of LAP aerial base stations, which is also revealed in the numerical analyses part.

Topics & Concepts

Backhaul (telecommunications)Base stationStochastic geometryProvisioningLow altitudeComputer scienceComputer networkEffects of high altitude on humansCellular networkTelecommunicationsGeographyAltitude (triangle)MeteorologyMathematicsStatisticsGeometryUAV Applications and OptimizationSatellite Communication SystemsTelecommunications and Broadcasting Technologies
Backhaul-Constrained Coverage Analysis of Integrated High and Low Altitude Platforms Aerial Communication System in Post-Disaster Areas | Litcius