Improvement in energy conversion for unmanned aerial vehicle charging pad

An efficient charging station is a necessity for Unmanned Aerial Vehicle (UAV) systems. However, if that implementation adds more complexity and onboard weight, then that exercise becomes a burden rather than a benefit since UAV's engineers aim to improve efficiency by reducing the energy consu...

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Main Authors: AL-Obaidi, M.R., Mustafa, M.A., Hassan, W.Z.W., Azis, N., Sabry, A.H., Ab-Kadir, M.Z.A.
Format: Article
Language:English
Published: 2020
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spelling my.uniten.dspace-133052020-07-03T05:24:01Z Improvement in energy conversion for unmanned aerial vehicle charging pad AL-Obaidi, M.R. Mustafa, M.A. Hassan, W.Z.W. Azis, N. Sabry, A.H. Ab-Kadir, M.Z.A. An efficient charging station is a necessity for Unmanned Aerial Vehicle (UAV) systems. However, if that implementation adds more complexity and onboard weight, then that exercise becomes a burden rather than a benefit since UAV's engineers aim to improve efficiency by reducing the energy consumed by the software and hardware of the complete aeronautical system. This article recommends a fully automatic contact charging station for UAVs, which can charge UAVs and thus resolve flight endurance restrictions of the UAV. The ground station consists of square copper plates that are positively and negatively polarized successively in a chessboard with particular sizes to guarantee electric contact at the landing. The design methodology used with the loading station takes into account the differences in UAV orientation once the platform has landed. In addition, this innovation uses independent charging after touchdown. Thus, this technology relaxes common flight times and help to enhance general mission times. This paper presents a unique charging platform in a “chessboard” configuration, which is devised as an interconnecting interface to facilitate the charging process and overcome inaccuracies with the landing. The solution devised in this research requires few components and presents two power source options (solar & mains power). Additionally, this work presents, to the best of our knowledge, a uniquely innovative recharging landing platform, which incidentally requires no additional software or changes to the UAV’s onboard software settings. Copyright © 2020 Institute of Advanced Engineering and Science. All rights reserved. 2020-02-03T03:31:42Z 2020-02-03T03:31:42Z 2019 Article 10.11591/ijeecs.v17.i2.pp767-773 en
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
language English
description An efficient charging station is a necessity for Unmanned Aerial Vehicle (UAV) systems. However, if that implementation adds more complexity and onboard weight, then that exercise becomes a burden rather than a benefit since UAV's engineers aim to improve efficiency by reducing the energy consumed by the software and hardware of the complete aeronautical system. This article recommends a fully automatic contact charging station for UAVs, which can charge UAVs and thus resolve flight endurance restrictions of the UAV. The ground station consists of square copper plates that are positively and negatively polarized successively in a chessboard with particular sizes to guarantee electric contact at the landing. The design methodology used with the loading station takes into account the differences in UAV orientation once the platform has landed. In addition, this innovation uses independent charging after touchdown. Thus, this technology relaxes common flight times and help to enhance general mission times. This paper presents a unique charging platform in a “chessboard” configuration, which is devised as an interconnecting interface to facilitate the charging process and overcome inaccuracies with the landing. The solution devised in this research requires few components and presents two power source options (solar & mains power). Additionally, this work presents, to the best of our knowledge, a uniquely innovative recharging landing platform, which incidentally requires no additional software or changes to the UAV’s onboard software settings. Copyright © 2020 Institute of Advanced Engineering and Science. All rights reserved.
format Article
author AL-Obaidi, M.R.
Mustafa, M.A.
Hassan, W.Z.W.
Azis, N.
Sabry, A.H.
Ab-Kadir, M.Z.A.
spellingShingle AL-Obaidi, M.R.
Mustafa, M.A.
Hassan, W.Z.W.
Azis, N.
Sabry, A.H.
Ab-Kadir, M.Z.A.
Improvement in energy conversion for unmanned aerial vehicle charging pad
author_facet AL-Obaidi, M.R.
Mustafa, M.A.
Hassan, W.Z.W.
Azis, N.
Sabry, A.H.
Ab-Kadir, M.Z.A.
author_sort AL-Obaidi, M.R.
title Improvement in energy conversion for unmanned aerial vehicle charging pad
title_short Improvement in energy conversion for unmanned aerial vehicle charging pad
title_full Improvement in energy conversion for unmanned aerial vehicle charging pad
title_fullStr Improvement in energy conversion for unmanned aerial vehicle charging pad
title_full_unstemmed Improvement in energy conversion for unmanned aerial vehicle charging pad
title_sort improvement in energy conversion for unmanned aerial vehicle charging pad
publishDate 2020
_version_ 1672614221658980352
score 13.222552