Koopman Identification of Nonlinear Systems via Reservoir Liftings
TLDR
RC-Koopman uses reservoir computing to create a well-conditioned, stateful dictionary for Koopman operator identification of nonlinear systems.
Key contributions
- Introduces RC-Koopman, a novel framework for Koopman identification of nonlinear systems.
- Utilizes reservoir computing as a stateful, finite-dimensional Koopman dictionary.
- Echo State Property guarantees well-posedness and numerical conditioning.
- Achieves superior accuracy and stability compared to EDMD and Hankel methods.
Why it matters
Koopman operator theory often struggles with dictionary selection and numerical issues when modeling nonlinear systems. This paper offers a robust solution using reservoir computing, improving the identification of complex nonlinear dynamics. It provides a more stable and accurate approach than existing methods.
Original Abstract
Learning tractable linear representations of nonlinear dynamical systems via Koopman operator theory is often hindered by dictionary selection, temporal memory encoding, and numerical ill-conditioning. Inspired by Reservoir Computing (RC) paradigm, this paper introduces the RC-Koopman framework, which interprets reservoir as a stateful, finite-dimensional Koopman dictionary whose temporal depth is explicitly controlled by its spectral radius. We show that the Echo State Property (ESP) guarantees well-posedness and favorable numerical conditioning of the lifted Koopman approximation. A correlation-based spectral radius selection algorithm aligns reservoir memory with dominant system timescales. Analysis reveals how the finite memory of the reservoir determines which Koopman eigenfunctions remain observable from the lifted features. Evaluation on synthetic benchmarks demonstrates that RC-Koopman achieves a favorable balance between reconstruction accuracy of the underlying nonlinear dynamics and dynamical stability, compared to Extended Dynamic Mode Decomposition (EDMD) and Hankel-based lifting approaches. Code available at: https://github.com/NEAR-the-future/RC-Koopman.git
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