Handover Rate and Sojourn Time Analysis in Mobile Drone-Assisted Cellular Networks

TL;DR

This paper provides an exact analysis of handover rate and sojourn time in drone-assisted cellular networks, revealing how drone speed distribution affects handover frequency and network stability.

Contribution

It introduces a novel analytical framework for handover and sojourn time in drone-based networks, highlighting the impact of drone speed uniformity on handover rate.

Findings

Handover rate is minimized when all drones move at the same speed.

Exact formulas for handover rate and sojourn time are derived.

Network stability is influenced by drone speed distribution.

Abstract

To improve capacity and overcome some of the limitations of cellular wireless networks, drones with aerial base stations can be deployed to assist the terrestrial cellular wireless networks. The mobility of drones allows flexible network reconfiguration to adapt to dynamic traffic and channel conditions. However, this is achieved at the expense of more handovers since even a static user may experience a handover when the drones are mobile. In this letter, we provide an exact analysis of the handover rate and sojourn time (time between two subsequent handovers) for a network of drone base stations. We also show that among different speed distributions with the same mean, the handover rate is minimum when all drone base stations move with same speed.