We consider robust linear static anti-windup design for linear control systems subject to input saturation with uncertain parameters. Within this context, we use scenario-based randomized techniques and revisit the well known LMI-based static anti-windup design technique for continuous-time linear control systems. The proposed approach leads to convex (LMI-based) techniques to construct a randomized robust nonlinear L2 gain estimate and to design an optimal robust static linear anti-windup compensator. The advantages of the proposed technique are illustrated on a simulation example.
Randomized analysis and synthesis of robust linear static anti-windup
Zaccarian, Luca;
2013-01-01
Abstract
We consider robust linear static anti-windup design for linear control systems subject to input saturation with uncertain parameters. Within this context, we use scenario-based randomized techniques and revisit the well known LMI-based static anti-windup design technique for continuous-time linear control systems. The proposed approach leads to convex (LMI-based) techniques to construct a randomized robust nonlinear L2 gain estimate and to design an optimal robust static linear anti-windup compensator. The advantages of the proposed technique are illustrated on a simulation example.File in questo prodotto:
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