We provide two nonlinear solutions to the model recovery anti-windup (MRAW) design problem, both of them relying on the definition of a set of nested ellipsoids in the state space of the anti-windup dynamics. Each ellipsoidal set arises from a convenient trade-off between size of the ellipsoid and guaranteed exponential convergence rate induced by the corresponding saturated feedback. The first solution is given by a hybrid selection of the MRAW stabilizer, relying on a natural hysteresis switching mechanism. The second solution corresponds to a Lipschitz but non-differentiable scheduled selection, which essentially smoothens out the discontinuous nature of the nested ellipsoids. We discuss the role of our design architecture and establish a number of important properties induced by the proposed controllers. Their effectiveness is comparatively illustrated on a few example studies. (C) 2018 European Control Association. Published by Elsevier Ltd. All rights reserved.
A switched and scheduled design for model recovery anti-windup of linear plants / Cristofaro, A.; Galeani, S.; Onori, S.; Zaccarian, L.. - In: EUROPEAN JOURNAL OF CONTROL. - ISSN 0947-3580. - 46:(2019), pp. 23-35. [10.1016/j.ejcon.2018.04.002]
A switched and scheduled design for model recovery anti-windup of linear plants
Cristofaro A.
;
2019
Abstract
We provide two nonlinear solutions to the model recovery anti-windup (MRAW) design problem, both of them relying on the definition of a set of nested ellipsoids in the state space of the anti-windup dynamics. Each ellipsoidal set arises from a convenient trade-off between size of the ellipsoid and guaranteed exponential convergence rate induced by the corresponding saturated feedback. The first solution is given by a hybrid selection of the MRAW stabilizer, relying on a natural hysteresis switching mechanism. The second solution corresponds to a Lipschitz but non-differentiable scheduled selection, which essentially smoothens out the discontinuous nature of the nested ellipsoids. We discuss the role of our design architecture and establish a number of important properties induced by the proposed controllers. Their effectiveness is comparatively illustrated on a few example studies. (C) 2018 European Control Association. Published by Elsevier Ltd. All rights reserved.| File | Dimensione | Formato | |
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