Failure Detection of Composites with Control System Corrective Response in Drone System Applications

Failure Detection of Composites with Control System Corrective Response in Drone System Applications

The paper describes a novel method for the detection of damage in carbon composites as used in drone frames. When damage is detected a further novel corrective response is initiated in the quadcopter flight controller to switch from a four-arm control system to a three-arm control system. This is ma...

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Bibliographic Details
Main Authors: Mark Bowkett, Kary Thanapalan, Ewen Constant
Format: Article
Language:English
Published: MDPI AG 2018-04-01
Series:Computers
Subjects:
drone system
operational safety
controller design
failure detection
printed circuit board (PCB) design
Online Access:http://www.mdpi.com/2073-431X/7/2/23
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spelling doaj-ff69cd343e5348ef967b8fc7a19431152020-11-25T01:28:58ZengMDPI AGComputers2073-431X2018-04-01722310.3390/computers7020023computers7020023Failure Detection of Composites with Control System Corrective Response in Drone System ApplicationsMark Bowkett0Kary Thanapalan1Ewen Constant2Faculty of Computing, Engineering & Sciences, University of South Wales, Pontypridd CF37 1DL, UKFaculty of Computing, Engineering & Sciences, University of South Wales, Pontypridd CF37 1DL, UKFaculty of Computing, Engineering & Sciences, University of South Wales, Pontypridd CF37 1DL, UKThe paper describes a novel method for the detection of damage in carbon composites as used in drone frames. When damage is detected a further novel corrective response is initiated in the quadcopter flight controller to switch from a four-arm control system to a three-arm control system. This is made possible as a symmetrical frame is utilized, which allows for a balanced weight distribution between both the undamaged quadcopter and the fallback tri-copter layout. The resulting work allows for continued flight where this was not previously possible. Further developing work includes improved flight stability with the aid of an underslung load model. This is beneficial to the quadcopter as a damaged arm attached to the main body by the motor wires behaves as an underslung load. The underslung load works are also transferable in a dual master and slave drone system where the master drone transports a smaller slave drone by a tether, which acts as an underslung load.http://www.mdpi.com/2073-431X/7/2/23drone systemoperational safetycontroller designfailure detectionprinted circuit board (PCB) design
collection DOAJ
language English
format Article
sources DOAJ
author Mark Bowkett
Kary Thanapalan
Ewen Constant
spellingShingle Mark Bowkett
Kary Thanapalan
Ewen Constant
Failure Detection of Composites with Control System Corrective Response in Drone System Applications
Computers
drone system
operational safety
controller design
failure detection
printed circuit board (PCB) design
author_facet Mark Bowkett
Kary Thanapalan
Ewen Constant
author_sort Mark Bowkett
title Failure Detection of Composites with Control System Corrective Response in Drone System Applications
title_short Failure Detection of Composites with Control System Corrective Response in Drone System Applications
title_full Failure Detection of Composites with Control System Corrective Response in Drone System Applications
title_fullStr Failure Detection of Composites with Control System Corrective Response in Drone System Applications
title_full_unstemmed Failure Detection of Composites with Control System Corrective Response in Drone System Applications
title_sort failure detection of composites with control system corrective response in drone system applications
publisher MDPI AG
series Computers
issn 2073-431X
publishDate 2018-04-01
description The paper describes a novel method for the detection of damage in carbon composites as used in drone frames. When damage is detected a further novel corrective response is initiated in the quadcopter flight controller to switch from a four-arm control system to a three-arm control system. This is made possible as a symmetrical frame is utilized, which allows for a balanced weight distribution between both the undamaged quadcopter and the fallback tri-copter layout. The resulting work allows for continued flight where this was not previously possible. Further developing work includes improved flight stability with the aid of an underslung load model. This is beneficial to the quadcopter as a damaged arm attached to the main body by the motor wires behaves as an underslung load. The underslung load works are also transferable in a dual master and slave drone system where the master drone transports a smaller slave drone by a tether, which acts as an underslung load.
topic drone system
operational safety
controller design
failure detection
printed circuit board (PCB) design
url http://www.mdpi.com/2073-431X/7/2/23
work_keys_str_mv AT markbowkett failuredetectionofcompositeswithcontrolsystemcorrectiveresponseindronesystemapplications
AT karythanapalan failuredetectionofcompositeswithcontrolsystemcorrectiveresponseindronesystemapplications
AT ewenconstant failuredetectionofcompositeswithcontrolsystemcorrectiveresponseindronesystemapplications
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