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Local expansion concepts for detecting transport barriers in dynamical systems |
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| Authors: | Kathrin Padberg Bianca Thiere Robert Preis Michael Dellnitz |
| Institution: | aInstitute for Transport and Economics, Technische Universität Dresden, D-01062 Dresden, Germany;bCenter for Information Services and High Performance Computing, Technische Universität Dresden, D-01062 Dresden, Germany;cFaculty of Computer Science, Electrical Engineering and Mathematics, University of Paderborn, D-33095 Paderborn, Germany |
| Abstract: | In the last two decades, the mathematical analysis of material transport has received considerable interest in many scientific fields such as ocean dynamics and astrodynamics. In this contribution we focus on the numerical detection and approximation of transport barriers in dynamical systems. Starting from a set-oriented approximation of the dynamics we combine discrete concepts from graph theory with established geometric ideas from dynamical systems theory. We derive the global transport barriers by computing the local expansion properties of the system. For the demonstration of our results we consider two different systems. First we explore a simple flow map inspired by the dynamics of the global ocean. The second example is the planar circular restricted three body problem with Sun and Jupiter as primaries, which allows us to analyze particle transport in the solar system. |
| Keywords: | Transport barriers Dynamical systems Almost invariant sets Graph theory Set-oriented methods Expansion Invariant manifolds |
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