We extend the classical integral Input-to-State Stability (iISS) theory to systems evolving on complete Rie-mannian manifolds and admitting multiple disjoint invariant sets, so as to allow a much broader variety of dynamical behaviors of interest. Building upon a recent extension of the Input-to-State (ISS) theory for this same class of systems, we provide characterizations of the iISS concept in terms of dissipation inequalities and integral estimates as well as connections with the Strong iISS notion. Finally, we discuss some examples within the domain of mechanical systems.
Characterizations of Integral Input-to-State Stability for Systems with Multiple Invariant Sets / Forni, Paolo; Angeli, David. - In: IEEE TRANSACTIONS ON AUTOMATIC CONTROL. - ISSN 0018-9286. - STAMPA. - 62:(2017), pp. 3729-3743. [10.1109/TAC.2016.2642782]
Characterizations of Integral Input-to-State Stability for Systems with Multiple Invariant Sets
Angeli, David
2017
Abstract
We extend the classical integral Input-to-State Stability (iISS) theory to systems evolving on complete Rie-mannian manifolds and admitting multiple disjoint invariant sets, so as to allow a much broader variety of dynamical behaviors of interest. Building upon a recent extension of the Input-to-State (ISS) theory for this same class of systems, we provide characterizations of the iISS concept in terms of dissipation inequalities and integral estimates as well as connections with the Strong iISS notion. Finally, we discuss some examples within the domain of mechanical systems.
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