Nonlinear Model Order Reduction using Diffeomorphic Transformations of a Space-Time Domain

Kleikamp Hendrik, Ohlberger Mario, Rave Stephan

Forschungsartikel in Sammelband (Konferenz) | Peer reviewed

Zusammenfassung

In many applications, for instance when describing dynamics of fluids or gases, hyperbolic conservation laws arise naturally in the modeling of conserved quantities of a system, like mass or energy. These types of equations exhibit highly nonlinear behaviors like shock formation or shock interaction. In the case of parametrized hyperbolic equations, where, for instance, varying transport velocities are considered, these nonlinearities and strong transport effects result in a highly nonlinear solution manifold. This solution manifold cannot be approximated properly by linear subspaces. To this end, nonlinear approaches for model order reduction of hyperbolic conservation laws are required. We propose a new method for nonlinear model order reduction that is especially well-suited for hyperbolic equations with discontinuous solutions. The approach is based on a space-time discretization and employs diffeomorphic transformations of the underlying space-time domain to align the discontinuities. To derive a reduced model for the diffeomorphisms, the Lie group structure of the diffeomorphism group is used to associate diffeomorphisms with corresponding velocity fields via the exponential map. In the linear space of velocity fields, standard model order reduction techniques, such as proper orthogonal decomposition, can be applied to extract a reduced subspace. For a parametrized Burgers' equation with two merging shocks, numerical experiments show the potential of the approach.

Details zur Publikation

Herausgeber*innenBreitenecker, Felix; Kemmetmüller, Wolfgang; Körner, Andreas; Kugi, Andreas; Troch, Inge
BuchtitelMATHMOD 2022 - Discussion Contribution Volume (Band 17)
Seitenbereich57-58
VerlagARGESIM Verlag
ErscheinungsortWien
Titel der ReiheARGESIM Report
Nr. in Reihe17
StatusVeröffentlicht
Veröffentlichungsjahr2022
Sprache, in der die Publikation verfasst istEnglisch
KonferenzMATHMOD 2022, Wien, Österreich
ISBN978-3-901608-95-7
DOI: 10.11128/arep.17.a17129
StichwörterModellreduktion; hyperbolische Erhaltungsgleichungen; Burgers Gleichung; Diffeomorphismen

Autor*innen der Universität Münster

Kleikamp, Hendrik
Professur für Angewandte Mathematik, insbesondere Numerik (Prof. Ohlberger)
Ohlberger, Mario
Professur für Angewandte Mathematik, insbesondere Numerik (Prof. Ohlberger)
Center for Nonlinear Science (CeNoS)
Center for Multiscale Theory and Computation (CMTC)
Rave, Stephan
Professur für Angewandte Mathematik, insbesondere Numerik (Prof. Ohlberger)