Stretching-Based Diagnostics in a Differential Geometry Setting
Abstract
The identification of slow invariant manifolds (SIMs) is an essential part in model-order reduction for reactive systems. The mathematical definition of the SIM by Fenichel can be considered unsatisfactory, because it is only applicable to so-called slow-fast system and does not provide the uniqueness of the SIM. Observing the phase space of the dynamical system (not necessarily a slow-fast system), the SIM becomes a geometric object which attracts trajectories, resulting in a bundling behavior. We aim to find a more general definition of the SIM, guided by the prior observations in phase space within the field of differential geometry. This setting provides one major benefit: All quantities are formulated covariantly, i.e. they are independent of the coordinate choice. A recent work by Heiter and Lebiedz \cite{heiter} translates the invariance property to vanishing sectional curvatures in the extended phase space.
Cite
@article{arxiv.1905.02311,
title = {Stretching-Based Diagnostics in a Differential Geometry Setting},
author = {Johannes Poppe and Dirk Lebiedz},
journal= {arXiv preprint arXiv:1905.02311},
year = {2019}
}
Comments
Extended Abstract for the International Workshop on Model Reduction in Reaction Flows 2019, 2 pages, 2 figures