loading page

Optimal Deployment of Tethered Drones for Maximum Cellular Coverage in User Clusters
  • +2
  • Osama Bushnaq ,
  • mustafa kishk ,
  • Abdulkadir Celik ,
  • Mohamed-Slim Alouini ,
  • Tareq Y. Al-Naffouri
Osama Bushnaq
Author Profile
mustafa kishk
Author Profile
Abdulkadir Celik
Author Profile
Mohamed-Slim Alouini
Author Profile
Tareq Y. Al-Naffouri
King Abdullah University of Science and Technology

Corresponding Author:[email protected]

Author Profile

Abstract

Unmanned aerial vehicles (UAVs) have recently received a significant interest to assist terrestrial wireless
networks thanks to their strong line-of-sight links and flexible/instant deployment. However, UAVs’ assistance
is limited by their battery lifetime and wireless backhaul link capacity. At the expense of limited mobility,
tethered UAVs (T-UAVs) can be a viable alternative to provide seamless service over a cable that simultaneously
supplies power and data from a ground station (GS). Accordingly, this paper presents a comparative performance
analysis of T-UAV and regular/untethered UAV (U-UAV)-assisted cellular traffic offloading from a geographical
area that undergoes heavy traffic conditions. By using stochastic geometry tools, we first derive joint distance
distributions between the hot-spot users, the terrestrial base station (TBS), and the UAV. To maximize the endto-
end signal-to-noise ratio, a user association policy is developed, and corresponding association regions are
analytically identified. Then, the overall coverage probability of the U-UAV/T-UAV-assisted system is derived for
given locations of the TBS and the U-UAV/T-UAV. Moreover, we analytically prove that optimal UAV location
falls within a partial surface of the spherical cone centered at the GS. Numerical results show that T-UAV
outperforms U-UAV given that sufficient GS locations accessibility and tether length are provided.
Mar 2021Published in IEEE Transactions on Wireless Communications volume 20 issue 3 on pages 2092-2108. 10.1109/TWC.2020.3039013