We characterize the achievable energy region of the two ERs, by optimizing the UAV's trajectory subject to a maximum speed constraint. We show that when the ...

A new successive hover-and-fly trajectory motivated by the optimal trajectory in the ideal case is proposed and efficient trajectory designs are obtained by ...

Sep 22, 2017 · This paper studies a new unmanned aerial vehicle (UAV)-enabled wireless power transfer (WPT) system, where a UAV-mounted mobile energy ...

We investigate how the UAV should optimally exploit its mobility via trajectory design to maximize the amount of energy transferred to all ERs during a finite ...

Jun 21, 2017 · We characterize the achievable energy region of the two ERs, by optimizing the UAV's trajectory subject to a maximum speed constraint. We show ...

We investigate how the UAV should optimally exploit its mobility via trajectory design to maximize the energy transferred to all ERs during a finite period.

We investigate how the UAV should optimally exploit its mobility via trajectory design to maximize the energy transferred to all ERs during a finite period.

Additionally, extensive research has been conducted on the co-design of the trajectory and resource allocation, for further improved energy transfer efficiency.

Dec 11, 2020 · In this chapter the authors propose a radically novel architecture for WPT systems by utilizing UAVs as flying energy transmitters.

Mar 10, 2023 · A UAV-assisted dual-user WPT system was investigated in this paper, where a UAV-mounted energy transmitter (ET) flies in the air to broadcast wireless energy.