An Improved Backstepping-Based Controller for Three-Dimensional Trajectory Tracking of a Midwater Trawl System

An Improved Backstepping-Based Controller for Three-Dimensional Trajectory Tracking of a Midwater Trawl System

An improved backstepping control method for three-dimensional trajectory tracking of a midwater trawl system is investigated. A new mathematical model of the trawl system while considering the horizontal expansion effect of two otter boards is presented based on the Newton Euler method. Subsequently...

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Main Authors: Zhao Yan, Yun sheng Mao, Cheng gang Liu
Format: Article
Language:English
Published: Hindawi Limited 2016-01-01
Series:Journal of Control Science and Engineering
Online Access:http://dx.doi.org/10.1155/2016/1358412
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spelling doaj-04b3e80cbdfb406ab08bd0c81572fb642020-11-25T02:14:20ZengHindawi LimitedJournal of Control Science and Engineering1687-52491687-52572016-01-01201610.1155/2016/13584121358412An Improved Backstepping-Based Controller for Three-Dimensional Trajectory Tracking of a Midwater Trawl SystemZhao Yan0Yun sheng Mao1Cheng gang Liu2Key Laboratory of High Performance Ship Technology (Wuhan University of Technology), Ministry of Education, Wuhan, ChinaWuhan University of Technology, Wuhan, ChinaChina Ship Development and Design Center, Wuhan, ChinaAn improved backstepping control method for three-dimensional trajectory tracking of a midwater trawl system is investigated. A new mathematical model of the trawl system while considering the horizontal expansion effect of two otter boards is presented based on the Newton Euler method. Subsequently, an active path tracking strategy of the trawl system based on the backstepping method is proposed. The nonstrict feedback characteristic of the proposed model employs a control allocation method and several parallel nonlinear PID (Proportion Integration Differentiation) controllers to eliminate the high-order state variables. Then, the stability analysis by the Lyapunov Stability Theory shows that the proposed controller can maintain the stability of the trawl system even with the presence of external disturbances. To validate the proposed controller, a simulation comparison with a linear PID controller was conducted. The simulation results illustrate that the improved backstepping controller is effective for three-dimensional trajectory tracking of the midwater trawl system.http://dx.doi.org/10.1155/2016/1358412
collection DOAJ
language English
format Article
sources DOAJ
author Zhao Yan
Yun sheng Mao
Cheng gang Liu
spellingShingle Zhao Yan
Yun sheng Mao
Cheng gang Liu
An Improved Backstepping-Based Controller for Three-Dimensional Trajectory Tracking of a Midwater Trawl System
Journal of Control Science and Engineering
author_facet Zhao Yan
Yun sheng Mao
Cheng gang Liu
author_sort Zhao Yan
title An Improved Backstepping-Based Controller for Three-Dimensional Trajectory Tracking of a Midwater Trawl System
title_short An Improved Backstepping-Based Controller for Three-Dimensional Trajectory Tracking of a Midwater Trawl System
title_full An Improved Backstepping-Based Controller for Three-Dimensional Trajectory Tracking of a Midwater Trawl System
title_fullStr An Improved Backstepping-Based Controller for Three-Dimensional Trajectory Tracking of a Midwater Trawl System
title_full_unstemmed An Improved Backstepping-Based Controller for Three-Dimensional Trajectory Tracking of a Midwater Trawl System
title_sort improved backstepping-based controller for three-dimensional trajectory tracking of a midwater trawl system
publisher Hindawi Limited
series Journal of Control Science and Engineering
issn 1687-5249
1687-5257
publishDate 2016-01-01
description An improved backstepping control method for three-dimensional trajectory tracking of a midwater trawl system is investigated. A new mathematical model of the trawl system while considering the horizontal expansion effect of two otter boards is presented based on the Newton Euler method. Subsequently, an active path tracking strategy of the trawl system based on the backstepping method is proposed. The nonstrict feedback characteristic of the proposed model employs a control allocation method and several parallel nonlinear PID (Proportion Integration Differentiation) controllers to eliminate the high-order state variables. Then, the stability analysis by the Lyapunov Stability Theory shows that the proposed controller can maintain the stability of the trawl system even with the presence of external disturbances. To validate the proposed controller, a simulation comparison with a linear PID controller was conducted. The simulation results illustrate that the improved backstepping controller is effective for three-dimensional trajectory tracking of the midwater trawl system.
url http://dx.doi.org/10.1155/2016/1358412
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AT chenggangliu animprovedbacksteppingbasedcontrollerforthreedimensionaltrajectorytrackingofamidwatertrawlsystem
AT zhaoyan improvedbacksteppingbasedcontrollerforthreedimensionaltrajectorytrackingofamidwatertrawlsystem
AT yunshengmao improvedbacksteppingbasedcontrollerforthreedimensionaltrajectorytrackingofamidwatertrawlsystem
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