Abstract
The authors of this study designed and optimized a charging landing pad system that mitigates the landing accuracy issues of unmanned aerial vehicles (UAVs). The study looks at the charging process, energy conversion during periodic landing on a unique platform, and an onboard and on-ground scheme design procedure. The circuit is fixed on the UAV platform and comprises six integrated bridge rectifier diodes to alter the four connection pin terminals’ charge polarity. The inclusion of a current indicator shows the flow of charge during successful docking. The charging platform consists of square conductive copper plates of specific dimensions that provide positive and negative polarity in a chess form to ensure the contact of various polarities. This design considers two power supply options: a solar panel and a standard mains supply. The contact point coordinate probability when landing is the crucial aspect of this design. A first version of the proposed system was implemented to measure its effectiveness for commercial drones. This system provides an automated recharge station with reliable performance. Numerical experiments showed that the system’s energy conversion remains efficient regardless of drone orientation over the platform or the environment’s nature.
Highlights
Unmanned aerial vehicles (UAVs) are used for a wide range of functions
The authors of this study proposes a solution for charging a UAV systematically without human
The authors of this study proposes a solution for charging of a UAV
Summary
Unmanned aerial vehicles (UAVs) are used for a wide range of functions. They can be controlled remotely by a ground pilot or pre-programmed to fly semi-autonomously or fully autonomously to a specified coordinate by Global Positioning System (GPS) navigation. The relatively short flight time, due to the low specific power capacity of the power sources, is one concern for the implementation of aircraft robots. The energy source required for a flight is stored in a battery that is typically a lithium-ion battery. The most appropriate option for expanding its duration is to land on a unique rehabilitation platform. The platform can either exchange or charge the power source
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