DocumentCode
2343703
Title
A nonlinear adaptive robust control design for robotic systems under time-varying parameter perturbation and external disturbance
Author
Yin, Yingjie ; Hayakawa, Yoshikazu ; Ogata, Kazuya ; Hosoe, Shigeynki
Author_Institution
RIKEN, Bio-Mimetric Control Res. Center, Nagoya, Japan
Volume
3
fYear
2003
fDate
27-31 Oct. 2003
Firstpage
2767
Abstract
Many control strategies have been proposed to compensate for uncertainties of robotic system, where the uncertain parameters are assumed to be constant. However, this assumption may not be satisfied in practice. In this paper, we consider the tracking problem for robot manipulator with unknown and time-varying physical parameters and disturbances. Our proposed state feedback adaptive robust controller consists of a nonlinear compensation based on nominal physical parameters, a linear and a nonlinear state feedback, and an adaptation algorithm for adjustment of the gravitational parameters. The effects of time-varying parameters and disturbances on the tracking performance can be attenuated within a prescribed level. Exact asymptotic tracking can be achieved for set point control with vanishing disturbances and constant parameters. By adding feedback input to penalty variable, high gain feedback can be strategically avoided. The effectiveness of the proposed method is verified by simulation and experiments.
Keywords
adaptive control; compensation; control system analysis; manipulators; nonlinear control systems; robust control; state feedback; time-varying systems; uncertain systems; adaptation algorithm; adaptive robust controller; asymptotic tracking; control strategies; external disturbance; gain feedback; gravitational parameters; linear state feedback; nonlinear adaptive robust control; nonlinear compensation; nonlinear state feedback; penalty variable; perturbation disturbance; robot manipulator; robotic systems; set point control; time varying parameter; tracking problem; uncertain parameters; uncertainties; Adaptive control; Control systems; Linear feedback control systems; Manipulators; Programmable control; Robots; Robust control; State feedback; Time varying systems; Uncertainty;
fLanguage
English
Publisher
ieee
Conference_Titel
Intelligent Robots and Systems, 2003. (IROS 2003). Proceedings. 2003 IEEE/RSJ International Conference on
Print_ISBN
0-7803-7860-1
Type
conf
DOI
10.1109/IROS.2003.1249289
Filename
1249289
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