Adaptive nonlinear sliding mode control of mechanical servo system with lugre friction compensation

Qiang Chen; Liang Tao; Yurong Nan; Xuemei Ren

doi:10.1115/1.4032068

Adaptive nonlinear sliding mode control of mechanical servo system with lugre friction compensation

Qiang Chen, Liang Tao^*, Yurong Nan, Xuemei Ren

^*Corresponding author for this work

School of Automation

Zhejiang University of Technology

Research output: Contribution to journal › Article › peer-review

38 Citations (Scopus)

Abstract

In this paper, the parameter identification and control problem are investigated for a mechanical servo system with LuGre friction. First of all, an intelligent glowworm swarm optimization (GSO) algorithm is developed to identify the friction parameters. Then, by using a finite-time parameter estimate law and nonlinear sliding mode technique, an adaptive nonlinear sliding mode control (NSMC) based on GSO is designed to speed up the parameter convergence and to decrease the overshoot and steady-state time in control process. Finally, comparative simulations are given to show that the proposed parameters identification technique and adaptive NSMC law are both effective with respect to fast convergence speed and high tracking accuracy.

Original language	English
Article number	021003
Journal	Journal of Dynamic Systems, Measurement and Control, Transactions of the ASME
Volume	138
Issue number	2
DOIs	https://doi.org/10.1115/1.4032068
Publication status	Published - 1 Feb 2016

Keywords

LuGre friction
mechanical servo system
nonlinear sliding mode control

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10.1115/1.4032068

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abstract = "In this paper, the parameter identification and control problem are investigated for a mechanical servo system with LuGre friction. First of all, an intelligent glowworm swarm optimization (GSO) algorithm is developed to identify the friction parameters. Then, by using a finite-time parameter estimate law and nonlinear sliding mode technique, an adaptive nonlinear sliding mode control (NSMC) based on GSO is designed to speed up the parameter convergence and to decrease the overshoot and steady-state time in control process. Finally, comparative simulations are given to show that the proposed parameters identification technique and adaptive NSMC law are both effective with respect to fast convergence speed and high tracking accuracy.",

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AU - Chen, Qiang

AU - Tao, Liang

AU - Nan, Yurong

AU - Ren, Xuemei

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Y1 - 2016/2/1

N2 - In this paper, the parameter identification and control problem are investigated for a mechanical servo system with LuGre friction. First of all, an intelligent glowworm swarm optimization (GSO) algorithm is developed to identify the friction parameters. Then, by using a finite-time parameter estimate law and nonlinear sliding mode technique, an adaptive nonlinear sliding mode control (NSMC) based on GSO is designed to speed up the parameter convergence and to decrease the overshoot and steady-state time in control process. Finally, comparative simulations are given to show that the proposed parameters identification technique and adaptive NSMC law are both effective with respect to fast convergence speed and high tracking accuracy.

AB - In this paper, the parameter identification and control problem are investigated for a mechanical servo system with LuGre friction. First of all, an intelligent glowworm swarm optimization (GSO) algorithm is developed to identify the friction parameters. Then, by using a finite-time parameter estimate law and nonlinear sliding mode technique, an adaptive nonlinear sliding mode control (NSMC) based on GSO is designed to speed up the parameter convergence and to decrease the overshoot and steady-state time in control process. Finally, comparative simulations are given to show that the proposed parameters identification technique and adaptive NSMC law are both effective with respect to fast convergence speed and high tracking accuracy.

KW - LuGre friction

KW - mechanical servo system

KW - nonlinear sliding mode control

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ER -

Adaptive nonlinear sliding mode control of mechanical servo system with lugre friction compensation

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