Optimal and Adaptive Anti-Windup Design in the Presence of Uncertainty
Seiten
2011
|
1., Auflage
Trauner Verlag
978-3-85499-882-2 (ISBN)
Trauner Verlag
978-3-85499-882-2 (ISBN)
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Robustness and actuator limitations are key issues in control theory and applications. However, the study of robust stability and performance properties for the class of nonlinear systems consisting of a linear system with input magnitude saturation is still far from complete. In fact, while robustness-in-the-small (i.e. for sufficiently small uncertainties) usually comes simply by continuity, robustness-in-the-large (that is, for a priori given, possibly large uncertainty sets) requires a careful design. In this context, this thesis considers the popular Anti-Windup (AW) approach to deal with actuator limits and large uncertainties and proposes two solutions. The first approach is based on the framework of Integral Quadratic Constraints and provides an H2/H8-mixed performance synthesis method, which allows to trade-off robustness against performance. The second approach follows the existing idea about a weakened anti-windup compensator, where the AW compensator is allowed to modify the closed loop response even if no saturation has occurred, as long as this is necessary to guarantee robust stability.
The main part of this thesis is concerned with the development of two adaptive solutions of weakened anti-windup problem, both guaranteeing robust-in-the-large stability. The idea is to enhance the performance versus previous worst-case approaches by estimating the uncertainty affecting the plant during real working conditions, and introducing just the amount of robustification needed to counteract it; thanks to adaptiveness, slowly time-varying large uncertainties can also be accomodated by such a scheme. The proposed switching adaptive robustified anti-windup compensators significantly improve the performance.
The main part of this thesis is concerned with the development of two adaptive solutions of weakened anti-windup problem, both guaranteeing robust-in-the-large stability. The idea is to enhance the performance versus previous worst-case approaches by estimating the uncertainty affecting the plant during real working conditions, and introducing just the amount of robustification needed to counteract it; thanks to adaptiveness, slowly time-varying large uncertainties can also be accomodated by such a scheme. The proposed switching adaptive robustified anti-windup compensators significantly improve the performance.
Sprache | englisch |
---|---|
Maße | 170 x 240 mm |
Gewicht | 334 g |
Einbandart | gebunden |
Themenwelt | Technik ► Elektrotechnik / Energietechnik |
Schlagworte | Elektronik • Englisch • Technik |
ISBN-10 | 3-85499-882-1 / 3854998821 |
ISBN-13 | 978-3-85499-882-2 / 9783854998822 |
Zustand | Neuware |
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