Model Reduction for Complex Hyperbolic Networks

Himpe C, Ohlberger M

Forschungsartikel in Sammelband (Konferenz) | Peer reviewed

Zusammenfassung

We recently introduced the joint gramian for combined state and parameter reduction [C. Himpe and M. Ohlberger. Cross-Gramian Based Combined State and Parameter Reduction for Large-Scale Control Systems. arXiv:1302.0634, 2013], which is applied in this work to reduce a parametrized linear time-varying control system modeling a hyperbolic network. The reduction encompasses the dimension of nodes and parameters of the underlying control system. Networks with a hyperbolic structure have many applications as models for large-scale systems. A prominent example is the brain, for which a network structure of the various regions is often assumed to model propagation of information. Networks with many nodes, and parametrized, uncertain or even unknown connectivity require many and individually computationally costly simulations. The presented model order reduction enables vast simulations of surrogate networks exhibiting almost the same dynamics with a small error compared to full order model.

Details zur Publikation

Seitenbereich: 2739-2743

Verlag: Wiley-IEEE Press

Status: Veröffentlicht

Veröffentlichungsjahr: 2014

Sprache, in der die Publikation verfasst ist: Englisch

Konferenz: 13th European Control Conference (ECC), June 24-27, 2014, Strasbourg, France

ISBN: 978-3-9524269-1-3

DOI: 10.1109/ECC.2014.6862188

Stichwörter: Hyperbolic Network; Model Reduction; Combined Reduction; Cross Gramian; Joint Gramian; Empirical Gramian

Autor*innen der Universität Münster

Himpe, Christian	Professur für Angewandte Mathematik, insbesondere Numerik (Prof. Ohlberger) Center for Nonlinear Science (CeNoS)
Ohlberger, Mario	Professur für Angewandte Mathematik, insbesondere Numerik (Prof. Ohlberger) Center for Nonlinear Science (CeNoS) Center for Multiscale Theory and Computation (CMTC) (CMTC)

Projekte, aus denen die Publikation entstanden ist

EXC 1003 A6 - Analyse von Bewegung in Zellsysytemen

Laufzeit: 01.11.2012 - 31.10.2019 | 1. Förderperiode

Gefördert durch: DFG - Exzellenzcluster

Art des Projekts: Teilprojekt in DFG-Verbund koordiniert an der Universität Münster

Promotionen, aus denen die Publikation resultiert

Combined State and Parameter Reduction for Nonlinear Systems with an Application in Neuroscience
Promovend*in: Himpe, Christian | Betreuer*innen: Ohlberger, Mario
Zeitraum: bis 20.06.2016
Promotionsverfahren erfolgt(e) an: Promotionsverfahren an der Universität Münster