Path Planning for Aircraft Fuel Tank Inspection Robot Based on Region Division

Path Planning for Aircraft Fuel Tank Inspection Robot Based on Region Division

Path planning is indispensable in performing the inspection task using continuum robot in the environment like aircraft fuel tank. In order to obtain the optimal path and make it feasible for the robot traversal, a path planning strategy based on region division is put forward. The aircraft fuel tan...

Full description

Bibliographic Details
Main Authors: Guochen NIU, Ziwei LI, Chengwei ZHANG, Peiyu WANG, Daowen XIAO
Format: Article
Language:English
Published: IFSA Publishing, S.L. 2014-06-01
Series:Sensors & Transducers
Subjects:
Aircraft fuel tank
Continuum robot
Path planning
Dimension reduction
Region division.
Online Access:http://www.sensorsportal.com/HTML/DIGEST/june_2014/Vol_173/P_2146.pdf
id doaj-7f72e1a0476443bf99f743bee8f2e184
record_format Article
spelling doaj-7f72e1a0476443bf99f743bee8f2e1842020-11-24T22:43:51ZengIFSA Publishing, S.L.Sensors & Transducers2306-85151726-54792014-06-0117364146 Path Planning for Aircraft Fuel Tank Inspection Robot Based on Region DivisionGuochen NIU0Ziwei LI1Chengwei ZHANG2 Peiyu WANG3Daowen XIAO4Robotics Institute, Civil Aviation University of China, Tianjin 300300, ChinaRobotics Institute, Civil Aviation University of China, Tianjin 300300, ChinaRobotics Institute, Civil Aviation University of China, Tianjin 300300, ChinaRobotics Institute, Civil Aviation University of China, Tianjin 300300, ChinaRobotics Institute, Civil Aviation University of China, Tianjin 300300, ChinaPath planning is indispensable in performing the inspection task using continuum robot in the environment like aircraft fuel tank. In order to obtain the optimal path and make it feasible for the robot traversal, a path planning strategy based on region division is put forward. The aircraft fuel tank is divided into several regions and mapped to a two-dimension plane by using dimension reduction which can reduce computation complexity. Three numerical methods are proposed in terms of different regions where the target point locates, and the shortest telescopic distance of the inspection robot can be solved. With bending and rotating of the inspection robot, the three methods ensure arbitrary point in the single cabin can be achieved. Simulation experiments are implemented on Matlab, and the accuracy, the effectiveness and feasibility of the algorithm are verified.http://www.sensorsportal.com/HTML/DIGEST/june_2014/Vol_173/P_2146.pdfAircraft fuel tankContinuum robotPath planningDimension reductionRegion division.
collection DOAJ
language English
format Article
sources DOAJ
author Guochen NIU
Ziwei LI
Chengwei ZHANG
Peiyu WANG
Daowen XIAO
spellingShingle Guochen NIU
Ziwei LI
Chengwei ZHANG
Peiyu WANG
Daowen XIAO
Path Planning for Aircraft Fuel Tank Inspection Robot Based on Region Division
Sensors & Transducers
Aircraft fuel tank
Continuum robot
Path planning
Dimension reduction
Region division.
author_facet Guochen NIU
Ziwei LI
Chengwei ZHANG
Peiyu WANG
Daowen XIAO
author_sort Guochen NIU
title Path Planning for Aircraft Fuel Tank Inspection Robot Based on Region Division
title_short Path Planning for Aircraft Fuel Tank Inspection Robot Based on Region Division
title_full Path Planning for Aircraft Fuel Tank Inspection Robot Based on Region Division
title_fullStr Path Planning for Aircraft Fuel Tank Inspection Robot Based on Region Division
title_full_unstemmed Path Planning for Aircraft Fuel Tank Inspection Robot Based on Region Division
title_sort path planning for aircraft fuel tank inspection robot based on region division
publisher IFSA Publishing, S.L.
series Sensors & Transducers
issn 2306-8515
1726-5479
publishDate 2014-06-01
description Path planning is indispensable in performing the inspection task using continuum robot in the environment like aircraft fuel tank. In order to obtain the optimal path and make it feasible for the robot traversal, a path planning strategy based on region division is put forward. The aircraft fuel tank is divided into several regions and mapped to a two-dimension plane by using dimension reduction which can reduce computation complexity. Three numerical methods are proposed in terms of different regions where the target point locates, and the shortest telescopic distance of the inspection robot can be solved. With bending and rotating of the inspection robot, the three methods ensure arbitrary point in the single cabin can be achieved. Simulation experiments are implemented on Matlab, and the accuracy, the effectiveness and feasibility of the algorithm are verified.
topic Aircraft fuel tank
Continuum robot
Path planning
Dimension reduction
Region division.
url http://www.sensorsportal.com/HTML/DIGEST/june_2014/Vol_173/P_2146.pdf
work_keys_str_mv AT guochenniu pathplanningforaircraftfueltankinspectionrobotbasedonregiondivision
AT ziweili pathplanningforaircraftfueltankinspectionrobotbasedonregiondivision
AT chengweizhang pathplanningforaircraftfueltankinspectionrobotbasedonregiondivision
AT peiyuwang pathplanningforaircraftfueltankinspectionrobotbasedonregiondivision
AT daowenxiao pathplanningforaircraftfueltankinspectionrobotbasedonregiondivision
_version_ 1725694292995866624

Similar Items