| Affiliation: | 1.Department of Mathematics and Computer Science,Freie Universit?t Berlin,Berlin,Germany;2.Department of Chemical and Biological Engineering and Program in Applied and Computational Mathematics,Princeton University,Princeton,USA;3.Zuse Institute Berlin,Berlin,Germany |
| Abstract: | In this review paper, we will present different data-driven dimension reduction techniques for dynamical systems that are based on transfer operator theory as well as methods to approximate transfer operators and their eigenvalues, eigenfunctions, and eigenmodes. The goal is to point out similarities and differences between methods developed independently by the dynamical systems, fluid dynamics, and molecular dynamics communities such as time-lagged independent component analysis, dynamic mode decomposition, and their respective generalizations. As a result, extensions and best practices developed for one particular method can be carried over to other related methods. |
