Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8899555 | Journal of Mathematical Analysis and Applications | 2018 | 20 Pages |
Abstract
We consider discrete-time one-dimensional random dynamical systems with bounded noise, which generate an associated set-valued dynamical system. We provide necessary and sufficient conditions for a discontinuous bifurcation of a minimal invariant set of the set-valued dynamical system in terms of the derivatives of the so-called extremal maps. We propose an algorithm for reconstructing the derivatives of the extremal maps from a time series that is generated by iterations of the original random dynamical system. We demonstrate that the derivative reconstructed for different parameters can be used as an early-warning signal to detect an upcoming bifurcation, and apply the algorithm to the bifurcation analysis of the stochastic return map of the Koper model, which is a three-dimensional multiple time scale ordinary differential equation used as prototypical model for the formation of mixed-mode oscillation patterns. We apply our algorithm to data generated by this map to detect an upcoming transition.
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Physical Sciences and Engineering
Mathematics
Analysis
Authors
Christian Kuehn, Giuseppe Malavolta, Martin Rasmussen,