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On continuity of solutions for parabolic control systems and input-to-state stability

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2019, Zeitschriftenaufsätze: J. Differential Equations, Vol. 266, 10, 6284-6306, 23 S.

@article{8c0c47c7484049d9bf8d2c5f71d5c488,
title = "On continuity of solutions for parabolic control systems and input-to-state stability",
abstract = "We study minimal conditions under which mild solutions of linear evolutionary control systems are continuous for arbitrary bounded input functions. This question naturally appears when working with boundary controlled, linear partial differential equations. Here, we focus on parabolic equations which allow for operator-theoretic methods such as the holomorphic functional calculus. Moreover, we investigate stronger conditions than continuity leading to input-to-state stability with respect to Orlicz spaces. This also implies that the notions of input-to-state stability and integral-input-to-state stability coincide if additionally the uncontrolled equation is dissipative and the input space is finite-dimensional. (C) 2018 Elsevier Inc. All rights reserved.",
keywords = "Article, Article",
author = "Birgit Jacob and Schwenninger, {Felix L.} and Hans Zwart",
note = "Anzahl Autoren: 3 | Jacob, Birgit| Schwenninger, Felix L.| Zwart, Hans",
year = "2019",
doi = "10.1016/j.jde.2018.11.004",
language = "English",
volume = "266",
pages = "6284--6306",
journal = "J. Differential Equations",
issn = "0022-0396",
publisher = "Academic Press Inc.",
number = "10",

}

Zusammenfassung

We study minimal conditions under which mild solutions of linear evolutionary control systems are continuous for arbitrary bounded input functions. This question naturally appears when working with boundary controlled, linear partial differential equations. Here, we focus on parabolic equations which allow for operator-theoretic methods such as the holomorphic functional calculus. Moreover, we investigate stronger conditions than continuity leading to input-to-state stability with respect to Orlicz spaces. This also implies that the notions of input-to-state stability and integral-input-to-state stability coincide if additionally the uncontrolled equation is dissipative and the input space is finite-dimensional. (C) 2018 Elsevier Inc. All rights reserved.

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