Sliding mode control with switching-gain adaptation based-disturbance observer applied to an electro-hydraulic actuator system

This paper presents a new robust control scheme using sliding mode control associated with disturbance observer enhanced by varying boundary layers technique. Switching-gain of the sliding mode is adaptable on the estimated disturbance. The scheme is developed to guarantee tracking accuracy of an electro-hydraulic actuator system with robust and smooth control actions in the existence of uncertainties and the changes of external load disturbance. Robustness and smoothness of the control actions is assured if the switching gain of the control law is greater and adaptable on the bounds of the uncertainties and the disturbance. Moreover, the smoothness of the control input is enhanced by varying boundary layers technique based on the estimated disturbance. The capability of the proposed controller is validated through simulation. The simulation results indicate that the proposed scheme ensures the tracking performance with smooth control actions in different levels of the external load disturbance. This scheme offers a significant efficiency of energy in the control of EIlA systems.

[1]  Dragan Antić,et al.  Position control of an electro-hydraulic servo system using sliding mode control enhanced by fuzzy PI controller , 2002 .

[2]  M. F. Rahmat,et al.  Perfect tracking control of an electro-hydraulic actuator with unknown disturbances , 2012, 2012 IEEE 8th International Colloquium on Signal Processing and its Applications.

[3]  Wen-Hua Chen,et al.  Sliding mode control for a class of uncertain nonlinear system based on disturbance observer , 2009 .

[4]  Yury Stepanenko,et al.  A Sliding Mode Controller with Improved Adaptation Laws for the Upper Bounds on the Norm of Uncertainties , 1998, Autom..

[5]  Yahaya Md Sam,et al.  Modeling and controller design of an industrial hydraulic actuator system in the presence of friction and internal leakage , 2011 .

[6]  M. Chung,et al.  A variable structure control with simple adaptation laws for upper bounds on the norm of the uncertainties , 1992 .

[7]  George T.-C. Chiu,et al.  Adaptive robust motion control of single-rod hydraulic actuators: theory and experiments , 2000 .

[8]  G. D. Buckner Intelligent bounds on modeling uncertainty: applications to sliding mode control , 2002, IEEE Trans. Syst. Man Cybern. Part C.

[9]  Juhng-Perng Su,et al.  Sliding mode control with varying boundary layers for an electro-hydraulic position servo system , 2005 .

[10]  Weibing Gao,et al.  Variable structure control of nonlinear systems: a new approach , 1993, IEEE Trans. Ind. Electron..

[11]  Sanjay E. Talole,et al.  Model Following Sliding Mode Control Based on Uncertainty and Disturbance Estimator , 2008 .

[12]  Peter I. Corke,et al.  Variable structure methods in hydraulic servo systems control , 2001, Autom..

[13]  Masayoshi Tomizuka,et al.  Chattering reduction and error convergence in the sliding-mode control of a class of nonlinear systems , 1996, IEEE Trans. Autom. Control..

[14]  Carlos Canudas de Wit,et al.  Friction Models and Friction Compensation , 1998, Eur. J. Control.

[15]  Cheng Guan,et al.  Adaptive sliding mode control of electro-hydraulic system with nonlinear unknown parameters , 2008 .

[16]  Carlos Canudas de Wit,et al.  A new model for control of systems with friction , 1995, IEEE Trans. Autom. Control..

[17]  John Y. Hung,et al.  Variable structure control: a survey , 1993, IEEE Trans. Ind. Electron..