Data-based asymptotic stabilization of unknown discrete-time linear systems with saturating actuators is addressed. The proposed approach relies on an explicit sector-bounded representation of the closed-loop system built from noisy state-input data. Relying on this novel representation, sufficient conditions in the form of linear matrix inequalities are established to ensure closed-loop regional asymptotic stability. These conditions are used to formulate a convex optimal controller design that allows one to maximize the region of attraction.Two numerical examples illustrate the applicability of the proposed results.
Data-based regional stabilization of linear systems with saturating actuators
Ferrante F.
;Leomanni M.;Costante G.;Crocetti F.;Fravolini M. L.
2026
Abstract
Data-based asymptotic stabilization of unknown discrete-time linear systems with saturating actuators is addressed. The proposed approach relies on an explicit sector-bounded representation of the closed-loop system built from noisy state-input data. Relying on this novel representation, sufficient conditions in the form of linear matrix inequalities are established to ensure closed-loop regional asymptotic stability. These conditions are used to formulate a convex optimal controller design that allows one to maximize the region of attraction.Two numerical examples illustrate the applicability of the proposed results.File in questo prodotto:
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