2021
DOI: 10.1088/2632-072x/ac080f
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Transient chaos enforces uncertainty in the British power grid

Abstract: Multistability is a common phenomenon which naturally occurs in complex networks. If coexisting attractors are numerous and their basins of attraction are complexly interwoven, the long-term response to a perturbation can be highly uncertain. We examine the uncertainty in the outcome of perturbations to the synchronous state in a Kuramoto-like representation of the British power grid. Based on local basin landscapes which correspond to single-node perturbations, we demonstrate that the uncertainty shows strong… Show more

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Cited by 17 publications
(7 citation statements)
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“…Hence, it may be assumed that every trajectory labeled as stable in that way will indeed converge to the synchronous state for t → ∞. On the other hand, trajectories who are classified as unstable may converge to many different kinds of attractors [37], [38]. However, we occasionally observed so-called long transient states at specific nodes, which do eventually converge to the synchronous state but fail to do so before t = 500.…”
Section: Dataset Propertiesmentioning
confidence: 80%
“…Hence, it may be assumed that every trajectory labeled as stable in that way will indeed converge to the synchronous state for t → ∞. On the other hand, trajectories who are classified as unstable may converge to many different kinds of attractors [37], [38]. However, we occasionally observed so-called long transient states at specific nodes, which do eventually converge to the synchronous state but fail to do so before t = 500.…”
Section: Dataset Propertiesmentioning
confidence: 80%
“…Hence, it may be assumed that every trajectory labeled as stable in that way will indeed converge to the synchronous state for t → ∞. On the other hand, trajectories who are classified as unstable may converge to many different kinds of attractors [44,45]. However, we occasionally observed so-called long transient states at specific nodes, which do eventually converge to the synchronous state but fail to do so before t = 500.…”
Section: Dataset Propertiesmentioning
confidence: 82%
“…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%
“…Another application where transient chaos plays an important role is mentioned by Halekotte et al in [9]. This paper considers the conditions of stable operation of the power grid described using the Kuramoto model with inertia and the network topology representing the high-voltage transmission grid of the United Kingdom.…”
Section: Transient Chaos In Nature and Technologymentioning
confidence: 99%