Output nested backward compensation of unmatched effects of unknown inputs

This paper tackles the regulation problem of linear time invariant systems with unmatched perturbations. The proposed methodology exploits a high order sliding mode observer, which guarantees theoretically exact state and perturbation estimation. In this work is introduced a controller with a compensation strategy based on the identified perturbation values. A nested backward sliding surface design is proposed, which allows to compensate the unmatched uncertainties and to stabilize some of the non-actuated state components, while all the remaining states are maintained bounded. The overall stabilization error is estimated in terms of the sampling time and actuator time constant values. The feasibility of the technique is showed in a rotary inverted pendulum simulation example.

[1]  Alexander S. Poznyak,et al.  Observation of linear systems with unknown inputs via high-order sliding-modes , 2007, Int. J. Syst. Sci..

[2]  Leonid M. Fridman,et al.  High order sliding mode observer for linear systems with unbounded unknown inputs , 2010, Int. J. Control.

[3]  Alexander S. Poznyak,et al.  Output integral sliding mode control based on algebraic hierarchical observer , 2007, Int. J. Control.

[4]  Arie Levant,et al.  Homogeneous High-Order Sliding Modes , 2009, ADHS.

[5]  Christopher Edwards,et al.  Dynamic Sliding Mode Control for a Class of Systems with Mismatched Uncertainty , 2005, Eur. J. Control.

[6]  Han Ho Choi Output feedback variable structure control design with an H2 performance bound constraint , 2008, Autom..

[7]  Leonid M. Fridman,et al.  Singularly perturbed analysis of chattering in relay control systems , 2002, IEEE Trans. Autom. Control..

[8]  B. Molinari A strong controllability and observability in linear multivariable control , 1976 .

[9]  Leonid M. Fridman,et al.  Robust output regulation with exact unmatched uncertainties compensation based on HOSM observation , 2009, Proceedings of the 48h IEEE Conference on Decision and Control (CDC) held jointly with 2009 28th Chinese Control Conference.

[10]  Leonid M. Fridman,et al.  Quasi-continuous HOSM control for systems with unmatched perturbations , 2008, 2008 International Workshop on Variable Structure Systems.

[11]  Vadim I. Utkin,et al.  Sliding Modes in Control and Optimization , 1992, Communications and Control Engineering Series.

[12]  Leonid M. Fridman,et al.  Analysis and design of integral sliding manifolds for systems with unmatched perturbations , 2006, IEEE Transactions on Automatic Control.

[13]  Arie Levant,et al.  Higher-order sliding modes, differentiation and output-feedback control , 2003 .

[14]  Yuri B. Shtessel,et al.  Min-max sliding-mode control for multimodel linear time varying systems , 2003, IEEE Trans. Autom. Control..

[15]  Mohamed Djemai,et al.  Sliding Mode Observers , 2002 .

[16]  Jeang-Lin Chang,et al.  Dynamic Output Integral Sliding-Mode Control With Disturbance Attenuation , 2009, IEEE Transactions on Automatic Control.