Structure Design and Stable-balancing Control of a Kind of Wire-moving Robot

Structure Design and Stable-balancing Control of a Kind of Wire-moving Robot

Wire-moving robots are mechanical systems that can maintain their balance and move on tightropes. Their name comes from the manner in which tightrope walkers maintain their balance by rolling or moving a pole from left to right. In order to investigate the internal laws of these systems and to apply...

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Main Authors: Lei Guo, Guanglei Lu, Qizheng Liao, Yanbo Cui, Dongqiang Liu, Deng Guo, Zeyan Hu
Format: Article
Language:English
Published: SAGE Publishing 2014-05-01
Series:International Journal of Advanced Robotic Systems
Online Access:https://doi.org/10.5772/58600
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spelling doaj-def7de2bd3e74272abf1a673ce4f8a422020-11-25T02:48:07ZengSAGE PublishingInternational Journal of Advanced Robotic Systems1729-88142014-05-011110.5772/5860010.5772_58600Structure Design and Stable-balancing Control of a Kind of Wire-moving RobotLei Guo0Guanglei Lu1Qizheng Liao2Yanbo Cui3Dongqiang Liu4Deng Guo5Zeyan Hu6 School of Automation, Beijing University of Posts and Telecommunications, Beijing, China School of Automation, Beijing University of Posts and Telecommunications, Beijing, China School of Automation, Beijing University of Posts and Telecommunications, Beijing, China School of Automation, Beijing University of Posts and Telecommunications, Beijing, China School of Automation, Beijing University of Posts and Telecommunications, Beijing, China School of Automation, Beijing University of Posts and Telecommunications, Beijing, China School of Automation, Beijing University of Posts and Telecommunications, Beijing, ChinaWire-moving robots are mechanical systems that can maintain their balance and move on tightropes. Their name comes from the manner in which tightrope walkers maintain their balance by rolling or moving a pole from left to right. In order to investigate the internal laws of these systems and to apply a mechanism of self-balance control to them, a new mechanical structure for wire-moving robots is presented here. This structure consists of a rotational pole and a translational pole coupled with each other in a parallelogram. The robot is an underactuated system. A dynamic model of the robot is established here based on the Lagrange method, and the controller of the system was designed using a partial feedback linearization control algorithm. Finally, the efficiency of the algorithm and the stabilization were verified by computer simulation and experimentation using a prototype.https://doi.org/10.5772/58600
collection DOAJ
language English
format Article
sources DOAJ
author Lei Guo
Guanglei Lu
Qizheng Liao
Yanbo Cui
Dongqiang Liu
Deng Guo
Zeyan Hu
spellingShingle Lei Guo
Guanglei Lu
Qizheng Liao
Yanbo Cui
Dongqiang Liu
Deng Guo
Zeyan Hu
Structure Design and Stable-balancing Control of a Kind of Wire-moving Robot
International Journal of Advanced Robotic Systems
author_facet Lei Guo
Guanglei Lu
Qizheng Liao
Yanbo Cui
Dongqiang Liu
Deng Guo
Zeyan Hu
author_sort Lei Guo
title Structure Design and Stable-balancing Control of a Kind of Wire-moving Robot
title_short Structure Design and Stable-balancing Control of a Kind of Wire-moving Robot
title_full Structure Design and Stable-balancing Control of a Kind of Wire-moving Robot
title_fullStr Structure Design and Stable-balancing Control of a Kind of Wire-moving Robot
title_full_unstemmed Structure Design and Stable-balancing Control of a Kind of Wire-moving Robot
title_sort structure design and stable-balancing control of a kind of wire-moving robot
publisher SAGE Publishing
series International Journal of Advanced Robotic Systems
issn 1729-8814
publishDate 2014-05-01
description Wire-moving robots are mechanical systems that can maintain their balance and move on tightropes. Their name comes from the manner in which tightrope walkers maintain their balance by rolling or moving a pole from left to right. In order to investigate the internal laws of these systems and to apply a mechanism of self-balance control to them, a new mechanical structure for wire-moving robots is presented here. This structure consists of a rotational pole and a translational pole coupled with each other in a parallelogram. The robot is an underactuated system. A dynamic model of the robot is established here based on the Lagrange method, and the controller of the system was designed using a partial feedback linearization control algorithm. Finally, the efficiency of the algorithm and the stabilization were verified by computer simulation and experimentation using a prototype.
url https://doi.org/10.5772/58600
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