We extend the classical concepts of sampling and Euler solutions for control systems associated to discontinuous feedbacks by considering also the corresponding costs. In particular, we introduce the notions of Sample and Euler stabilizability to a closed target set Cwith(p, W) -regulated cost, for some continuous, state-dependent function W and some constant p> 0 : it roughly means that we require the existence of a stabilizing feedback K such that all the corresponding sampling and Euler solutions starting from a point z have suitably defined finite costs, bounded above by W(z) / p. Then, we show how the existence of a special, semiconcave Control Lyapunov Function W, called p-Minimum Restraint Function, allows us to construct explicitly such a feedback K. When dynamics and Lagrangian are Lipschitz continuous in the state variable, we prove that K as above can be still obtained if there exists a p-Minimum Restraint Function which is merely Lipschitz continuous. An example on the stabilizability with (p, W) -regulated cost of the nonholonomic integrator control system associated to any cost with bounded Lagrangian illustrates the results.

Stabilizability in optimal control / Lai, Anna Chiara; Motta, Monica. - In: NODEA-NONLINEAR DIFFERENTIAL EQUATIONS AND APPLICATIONS. - ISSN 1021-9722. - 27:4(2020). [10.1007/s00030-020-00647-7]

Stabilizability in optimal control

Lai, Anna Chiara;
2020

Abstract

We extend the classical concepts of sampling and Euler solutions for control systems associated to discontinuous feedbacks by considering also the corresponding costs. In particular, we introduce the notions of Sample and Euler stabilizability to a closed target set Cwith(p, W) -regulated cost, for some continuous, state-dependent function W and some constant p> 0 : it roughly means that we require the existence of a stabilizing feedback K such that all the corresponding sampling and Euler solutions starting from a point z have suitably defined finite costs, bounded above by W(z) / p. Then, we show how the existence of a special, semiconcave Control Lyapunov Function W, called p-Minimum Restraint Function, allows us to construct explicitly such a feedback K. When dynamics and Lagrangian are Lipschitz continuous in the state variable, we prove that K as above can be still obtained if there exists a p-Minimum Restraint Function which is merely Lipschitz continuous. An example on the stabilizability with (p, W) -regulated cost of the nonholonomic integrator control system associated to any cost with bounded Lagrangian illustrates the results.
2020
Asymptotic stabilizability; Discontinuous feedback law; Exit-time problems; Optimal control
01 Pubblicazione su rivista::01a Articolo in rivista
Stabilizability in optimal control / Lai, Anna Chiara; Motta, Monica. - In: NODEA-NONLINEAR DIFFERENTIAL EQUATIONS AND APPLICATIONS. - ISSN 1021-9722. - 27:4(2020). [10.1007/s00030-020-00647-7]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1434465
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