Direct adaptive fuzzy sliding mode control for multi-link robots

Author

Xiaojiang, Mu ; Li, Ge

Author_Institution

Shenzhen Inst. of Inf. Technol., Shenzhen, China

fYear

2012

fDate

23-25 May 2012

Firstpage

3230

Lastpage

3233

Abstract

A direct adaptive fuzzy sliding mode controller is presented for trajectory tracking control of multi-link robots with model errors and uncertain disturbances. This approach adopts a global sliding mode manifold which eliminates reaching mode phase of normal sliding mode manifold and enforce the controlled system robustness. An adaptive fuzzy controller is designed to learn the robot model error and uncertain disturbances. So the control system can automatically track the maximum limit of model errors and disturbances, and reduces chattering of the controller. Prediction estimation for model errors and disturbances of the control system is not needed too. Moreover, the system stability is proved by Lyapunov principle. Simulation results verify the validity of the control scheme.

Keywords

Lyapunov methods; adaptive control; control system synthesis; fuzzy control; mobile robots; path planning; stability; trajectory control; uncertain systems; variable structure systems; Lyapunov principle; controlled system robustness; direct adaptive fuzzy sliding mode controller design; global sliding mode manifold; model error prediction estimation; multilink robots; normal sliding mode manifold; robot model errors; trajectory tracking control; uncertain disturbances; Adaptation models; Manifolds; Robots; Sliding mode control; Trajectory; Vectors; adaptive fuzzy control; chattering; model error; sliding mode manifold;

fLanguage

English

Publisher

ieee

Conference_Titel

Control and Decision Conference (CCDC), 2012 24th Chinese

Conference_Location

Taiyuan

Print_ISBN

978-1-4577-2073-4

Type

conf

DOI

10.1109/CCDC.2012.6243082

Filename

6243082