Based on Genetic Algorithm and Input Estimation Approach to Design a Sliding Mode Controller for Flexible-Joint Robot Control System

Author

Ji, Chien-Yu ; Lee, Yung-Lung ; Chen, Tsung-Chien

Author_Institution

Ching Yun Univ., Jung-Li

fYear

2007

fDate

1-3 Oct. 2007

Firstpage

481

Lastpage

486

Abstract

In this work, the genetic algorithm (GA) and input estimation approach (IE) are proposed to design a sliding mode controller (SMC) that hold ability of disturbance torque estimation and the robust control performance. The IE approach is an on-line recursive inverse estimation method based on the Kalman filter (KF) and recursive least square estimator method (RLSE), which estimates the disturbance torque without additional torque sensor. The sliding mode control theory has the characteristics of low sensitivity with variable system parameters. Furthermore, the genetic algorithm is proposed to search the optimal controller design parameters for SMC that it can promote the control performance.

Keywords

Kalman filters; control system synthesis; flexible manipulators; genetic algorithms; least squares approximations; optimal control; recursive estimation; robust control; torque control; variable structure systems; Kalman filter; disturbance torque estimation; flexible-joint robot control system; genetic algorithm; online recursive inverse estimation approach; optimal controller design; recursive least square estimator method; robust control performance; sliding mode controller design; torque sensor; Algorithm design and analysis; Control systems; Genetic algorithms; Least squares approximation; Optimal control; Recursive estimation; Robot control; Robust control; Sliding mode control; Torque control;

fLanguage

English

Publisher

ieee

Conference_Titel

Intelligent Control, 2007. ISIC 2007. IEEE 22nd International Symposium on

Conference_Location

Singapore

ISSN

2158-9860

Print_ISBN

978-1-4244-0440-7

Electronic_ISBN

2158-9860

Type

conf

DOI

10.1109/ISIC.2007.4450933

Filename

4450933