Azade Fotouhi

TL;DR: In this paper, the authors provide a comprehensive survey of all of these developments promoting smooth integration of UAVs into cellular networks, including the types of consumer UAV currently available off-the-shelf, the interference issues and potential solutions addressed by standardization bodies for serving aerial users with the existing terrestrial BSs, challenges and opportunities for assisting cellular communications with UAV-based flying relays and BSs.

TL;DR: A comprehensive survey of the types of consumer UAVs currently available off-the-shelf, the interference issues and potential solutions addressed by standardization bodies for serving aerial users with the existing terrestrial BSs, and the cyber-physical security of UAV-assisted cellular communications are surveyed.

TL;DR: It is demonstrated that the drone base stations moving according to the proposed algorithms can improve the average packet throughput and the 5th-percentile packet throughput by 430% compared to a baseline scenario, where drones hover over fixed locations.

TL;DR: The benefit of dynamically repositioning the drone base station in the air to reduce the distance between the BS and the mobile user equipment, thereby improving the spectral efficiency of the small cell is explored.

TL;DR: In this article, the authors explore the benefit of dynamically repositioning the drone base station in the air to reduce the distance between the BS and the mobile user equipment, thereby improving the spectral efficiency of the small cell.