This paper investigates a few issues related to the problem of robust output feedback stabilization of nonlinear non-minimimum phase systems. In order to cope with (unstructured) parametric uncertainties we insist on well-known high-gain design principles which, however, are integrated with robust zero-assignment procedures to handle possible unstable zero dynamics. In this respect we propose two possible zero-assignment arguments. The rst relies upon an output redesign obtained by means of a "feed-through" compensator. Interestingly enough, we show how existing results on this subject can be cast in terms of the resulting feed-through / high-gain design paradigm. In the second, by drawing inspiration from known results for linear systems which go under the name of vibrational-feedback, the output redesign is achieved by using time- varying periodic controllers. Remarkably, we show how the resulting design framework is able to deal also with severe uncertainties in the high-frequency gain of the controlled system by thus obtaining results which turn out to be interesting also in a linear setting. Copyright © 2007 International Federation of Automatic Control All Rights Reserved.
A Note on Robust Output Feedback Stabilization of Nonlinear Nonminimum Phase Systems / Isidori, Alberto; L., Marconi. - 17:1 PART 1(2008), pp. 3776-3780. (Intervento presentato al convegno 17th World Congress of the International Federation of Automatic Control tenutosi a Seoul; Korea, Republic of nel July 6-11, 2008) [10.3182/20080706-5-kr-1001.00636].
A Note on Robust Output Feedback Stabilization of Nonlinear Nonminimum Phase Systems
ISIDORI, Alberto;
2008
Abstract
This paper investigates a few issues related to the problem of robust output feedback stabilization of nonlinear non-minimimum phase systems. In order to cope with (unstructured) parametric uncertainties we insist on well-known high-gain design principles which, however, are integrated with robust zero-assignment procedures to handle possible unstable zero dynamics. In this respect we propose two possible zero-assignment arguments. The rst relies upon an output redesign obtained by means of a "feed-through" compensator. Interestingly enough, we show how existing results on this subject can be cast in terms of the resulting feed-through / high-gain design paradigm. In the second, by drawing inspiration from known results for linear systems which go under the name of vibrational-feedback, the output redesign is achieved by using time- varying periodic controllers. Remarkably, we show how the resulting design framework is able to deal also with severe uncertainties in the high-frequency gain of the controlled system by thus obtaining results which turn out to be interesting also in a linear setting. Copyright © 2007 International Federation of Automatic Control All Rights Reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.