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Well-posedness and regularity of linear hyperbolic systems with dynamic boundary conditions

Part of: Groups and semigroups of linear operators, their generalizations and applications Hyperbolic equations and systems

Published online by Cambridge University Press:  19 July 2016

Gilbert Peralta  and
Georg Propst
Gilbert Peralta
Affiliation:
Department of Mathematics and Computer Science, University of the Philippines Baguio, Governor Pack Road, 2600 Baguio City, Philippines (grperalta@upb.edu.ph) and Institut für Mathematik und Wissenschaftliches Rechnen, NAWI Graz, Karl-Franzens-Universität Graz, Heinrichstrasse 36, 8010 Graz, Austria
Georg Propst
Affiliation:
Institut für Mathematik und Wissenschaftliches Rechnen, NAWI Graz, Karl-Franzens-Universität Graz, Heinrichstrasse 36, 8010 Graz, Austria (georg.propst@uni-graz.at)
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Extract

We consider first-order hyperbolic systems on an interval with dynamic boundary conditions. These systems occur when the ordinary differential equation dynamics on the boundary interact with the waves in the interior. The well-posedness for linear systems is established using an abstract Friedrichs theorem. Due to the limited regularity of the coefficients, we need to introduce the appropriate space of test functions for the weak formulation. It is shown that the weak solutions exhibit a hidden regularity at the boundary as well as at interior points. As a consequence, the dynamics of the boundary components satisfy an additional regularity. Neither result can be achieved from standard semigroup methods. Nevertheless, we show that our weak solutions and the semigroup solutions coincide. For illustration, we give three particular physical examples that fit into our framework.

Keywords

linear hyperbolic PDE–ODEdynamic boundary conditionwell-posednessregularitysemigroup

MSC classification

Secondary: 35L40: First-order hyperbolic systems 35L50: Initial-boundary value problems for first-order hyperbolic systems 47D03: Groups and semigroups of linear operators
Type
Research Article
Information
Proceedings of the Royal Society of Edinburgh Section A: Mathematics , Volume 146 , Issue 5 , October 2016 , pp. 1047 - 1080
Copyright
Copyright © Royal Society of Edinburgh 2016 

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