Predicting the duration of chaotic transients in excitable media

Aron, Marcel; Lilienkamp, Thomas; Parlitz, Ulrich

doi:10.1088/2632-072x/abf752

Cited by 2 publications

(2 citation statements)

References 35 publications

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“…In this section, we provide an overview of contributions to the focus issue, which describe the emergence of transient chaos in various applications, including self-organization of active particles [8], dynamics of power grids [9], applications in medicine [10] and magnetohydrodynamics [11], as well as in machine learning [12].…”

Section: Transient Chaos In Nature and Technologymentioning

confidence: 99%

“…Transient complex spatiotemporal dynamics can also be found in cardiac tissue, where it is associated with cardiac arrhythmias such as ventricular fibrillation. This dysfunction of the heart muscle is studied by Aron et al [10] using the 2D Fenton-Karma model, which is a minimal model for the electrophysiology of ventricular myocytes. The paper presents numerical evidence that the average length of the exponentially distributed chaotic transients in the Fenton-Karma model is functionally linked to the features commonly used to characterize excitable media (e.g., the dominant frequency, the size of the excitable gap, or the shape of the action-potential duration restitution curve).…”

Section: Transient Chaos In Nature and Technologymentioning

confidence: 99%

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Focusing on transient chaos

Omel’chenko¹,

Tél²

2022

J. Phys. Complex.

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Recent advances in the field of complex, transiently chaotic dynamics are reviewed, based on the results published in the focus issue of J. Phys. Complex. on this topic. One group of achievements concerns network dynamics where transient features are intimately related to the degree and stability of synchronization, as well as to the network topology. A plethora of various applications of transient chaos are described, ranging from the collective motion of active particles, through the operation of power grids, cardiac arrhythmias, and magnetohydrodynamical dynamos, to the use of machine learning to predict time evolutions. Nontraditional forms of transient chaos are also explored, such as the temporal change of the chaoticity in the transients (called doubly transient chaos), as well as transients in systems subjected to parameter drift, the paradigm of which is climate change.

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Section: Transient Chaos In Nature and Technologymentioning

confidence: 99%

Section: Transient Chaos In Nature and Technologymentioning

confidence: 99%

Focusing on transient chaos

Omel’chenko¹,

Tél²

2022

J. Phys. Complex.

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Investigation of transient extreme events in a mutually coupled star network of theoretical Brusselator system

Manivelan,

Sabarathinam,

Thamilmaran

et al. 2024

Chaos: An Interdisciplinary Journal of Nonlinear Science

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In this article, we present evidence of a distinct class of extreme events that occur during the transient chaotic state within network modeling using the Brusselator with a mutually coupled star network. We analyze the phenomenon of transient extreme events in the network by focusing on the lifetimes of chaotic states. These events are identified through the finite-time Lyapunov exponent and quantified using threshold and statistical methods, including the probability distribution function (PDF), generalized extreme value (GEV) distribution, and return period plots. We also evaluate the transitions of these extreme events by examining the average synchronization error and the system’s energy function. Our findings, validated across networks of various sizes, demonstrate consistent patterns and behaviors, contributing to a deeper understanding of transient extreme events in complex networks.

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Predicting the duration of chaotic transients in excitable media

Cited by 2 publications

References 35 publications

Focusing on transient chaos

Focusing on transient chaos

Investigation of transient extreme events in a mutually coupled star network of theoretical Brusselator system

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