Design of a Wireless Drone Recharging Station and a Special Robot End Effector for Installation on a Power Line

Dario Stuhne; Viet Duong Hoang; Goran Vasiljevic; Stjepan Bogdan; Zdenko Kovacic; Anibal Ollero; Emad Ebeid

doi:10.1109/ACCESS.2022.3201351

Design of a Wireless Drone Recharging Station and a Special Robot End Effector for Installation on a Power Line

Dario Stuhne, Viet Duong Hoang, Goran Vasiljevic, Stjepan Bogdan, Zdenko Kovacic, Anibal Ollero, Emad Ebeid

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Abstract

Drone autonomous operations near power lines are growing steadily and require innovative techniques to keep them on air. This paper presents a novel electromechanical recharging station that can be mounted on energized AC power line to charge the drone battery wirelessly without a need to modify the electrical infrastructure. The work shows a thorough analysis of the electrical and mechanical core components to build a flexible, lightweight and efficient recharging station that can be attached to a robotic arm. The work also discusses the recharging station design and its special robot end effector that mechanically couples the station with an aerial manipulator. Finally, the recharging station has been tested in the lab and in a real power line setup to validate its design and efficiency. The total achieved mass is 2300 grams with a harvesting efficiency of 77% at 250 A primary current.

Original language	English
Journal	IEEE Access
Volume	10
Pages (from-to)	88719-88737
ISSN	2169-3536
DOIs	https://doi.org/10.1109/ACCESS.2022.3201351
Publication status	Published - 2022

Keywords

aerial robotic manipulation
Autonomous aerial vehicles
Batteries
Charging stations
drone
Drones
end effector
End effectors
energy harvesting
Energy harvesting
Inspection
Mobile robots
Power cables
power line
Power supplies
Recharging station
unmanned aerial vehicle

Documents & Links

10.1109/ACCESS.2022.3201351Licence: CC BY

Open Access VersionFinal published version, 3.18 MBLicence: CC BY

EU H2020: Aerial Core
Ebeid, E. S. M., Hoang, V. D. & Malle, N. H.
01/12/2019 → 30/11/2023
Project: EU

Cite this

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title = "Design of a Wireless Drone Recharging Station and a Special Robot End Effector for Installation on a Power Line",

abstract = " Drone autonomous operations near power lines are growing steadily and require innovative techniques to keep them on air. This paper presents a novel electromechanical recharging station that can be mounted on energized AC power line to charge the drone battery wirelessly without a need to modify the electrical infrastructure. The work shows a thorough analysis of the electrical and mechanical core components to build a flexible, lightweight and efficient recharging station that can be attached to a robotic arm. The work also discusses the recharging station design and its special robot end effector that mechanically couples the station with an aerial manipulator. Finally, the recharging station has been tested in the lab and in a real power line setup to validate its design and efficiency. The total achieved mass is 2300 grams with a harvesting efficiency of 77% at 250 A primary current.",

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author = "Dario Stuhne and Hoang, {Viet Duong} and Goran Vasiljevic and Stjepan Bogdan and Zdenko Kovacic and Anibal Ollero and Emad Ebeid",

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year = "2022",

doi = "10.1109/ACCESS.2022.3201351",

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T1 - Design of a Wireless Drone Recharging Station and a Special Robot End Effector for Installation on a Power Line

AU - Stuhne, Dario

AU - Hoang, Viet Duong

AU - Vasiljevic, Goran

AU - Bogdan, Stjepan

AU - Kovacic, Zdenko

AU - Ollero, Anibal

AU - Ebeid, Emad

N1 - Publisher Copyright: Author

PY - 2022

Y1 - 2022

N2 - Drone autonomous operations near power lines are growing steadily and require innovative techniques to keep them on air. This paper presents a novel electromechanical recharging station that can be mounted on energized AC power line to charge the drone battery wirelessly without a need to modify the electrical infrastructure. The work shows a thorough analysis of the electrical and mechanical core components to build a flexible, lightweight and efficient recharging station that can be attached to a robotic arm. The work also discusses the recharging station design and its special robot end effector that mechanically couples the station with an aerial manipulator. Finally, the recharging station has been tested in the lab and in a real power line setup to validate its design and efficiency. The total achieved mass is 2300 grams with a harvesting efficiency of 77% at 250 A primary current.

AB - Drone autonomous operations near power lines are growing steadily and require innovative techniques to keep them on air. This paper presents a novel electromechanical recharging station that can be mounted on energized AC power line to charge the drone battery wirelessly without a need to modify the electrical infrastructure. The work shows a thorough analysis of the electrical and mechanical core components to build a flexible, lightweight and efficient recharging station that can be attached to a robotic arm. The work also discusses the recharging station design and its special robot end effector that mechanically couples the station with an aerial manipulator. Finally, the recharging station has been tested in the lab and in a real power line setup to validate its design and efficiency. The total achieved mass is 2300 grams with a harvesting efficiency of 77% at 250 A primary current.

KW - aerial robotic manipulation

KW - Autonomous aerial vehicles

KW - Batteries

KW - Charging stations

KW - drone

KW - Drones

KW - end effector

KW - End effectors

KW - energy harvesting

KW - Energy harvesting

KW - Inspection

KW - Mobile robots

KW - Power cables

KW - power line

KW - Power supplies

KW - Recharging station

KW - unmanned aerial vehicle

U2 - 10.1109/ACCESS.2022.3201351

DO - 10.1109/ACCESS.2022.3201351

M3 - Journal article

AN - SCOPUS:85137577884

SN - 2169-3536

VL - 10

SP - 88719

EP - 88737

JO - IEEE Access

JF - IEEE Access

ER -

Design of a Wireless Drone Recharging Station and a Special Robot End Effector for Installation on a Power Line

Abstract

Keywords

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Related projects

EU H2020: Aerial Core

Cite this