Analysis of a bistable climate toy model with physics-based machine learning methods

Abstract

We propose a comprehensive framework able to address both the predictability of the first and of the second kind for high-dimensional chaotic models. For this purpose, we analyse the properties of a newly introduced multistable climate toy model constructed by coupling the Lorenz ’96 model with a zero-dimensional energy balance model. First, the attractors of the system are identified with Monte Carlo Basin Bifurcation Analysis. Additionally, we are able to detect the Melancholia state separating the two attractors. Then, Neural Ordinary Differential Equations are applied to predict the future state of the system in both of the identified attractors.

Description
Keywords
Basin Boundaries, Response Theory, Systems, Stability, Parametrizations, Representation, Resilience, Attractors, States
Citation
Gelbrecht, M., Lucarini, V., Boers, N., & Kurths, J. (2021). Analysis of a bistable climate toy model with physics-based machine learning methods. 230(14-15). https://doi.org//10.1140/epjs/s11734-021-00175-0
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License
CC BY 4.0 Unported