Hierarchical frequency clusters in adaptive networks of phase oscillators

Rico Berner; Jan Fialkowski; Dmitry Kasatkin; Vladimir Nekorkin; Serhiy Yanchuk; Eckehard Schöll

doi:10.1063/1.5097835

Hierarchical frequency clusters in adaptive networks of phase oscillators

Rico Berner
, Jan Fialkowski
, Dmitry Kasatkin
, Vladimir Nekorkin
, Serhiy Yanchuk
, Eckehard Schöll

Research output: Contribution to journal › Article › peer-review

Abstract

Adaptive dynamical networks appear in various real-word systems. One of the simplest phenomenological models for investigating basic properties of adaptive networks is the system of coupled phase oscillators with adaptive couplings. In this paper, we investigate the dynamics of this system. We extend recent results on the appearance of hierarchical frequency multiclusters by investigating the effect of the time scale separation. We show that the slow adaptation in comparison with the fast phase dynamics is necessary for the emergence of the multiclusters and their stability. Additionally, we study the role of double antipodal clusters, which appear to be unstable for all considered parameter values. We show that such states can be observed for a relatively long time, i.e., they are metastable. A geometrical explanation for such an effect is based on the emergence of a heteroclinic orbit.

Original language	English
Article number	103134
Journal	Chaos
Volume	29
Issue number	10
DOIs	https://doi.org/10.1063/1.5097835
Publication status	Published - 1 Oct 2019
Externally published	Yes

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title = "Hierarchical frequency clusters in adaptive networks of phase oscillators",

abstract = "Adaptive dynamical networks appear in various real-word systems. One of the simplest phenomenological models for investigating basic properties of adaptive networks is the system of coupled phase oscillators with adaptive couplings. In this paper, we investigate the dynamics of this system. We extend recent results on the appearance of hierarchical frequency multiclusters by investigating the effect of the time scale separation. We show that the slow adaptation in comparison with the fast phase dynamics is necessary for the emergence of the multiclusters and their stability. Additionally, we study the role of double antipodal clusters, which appear to be unstable for all considered parameter values. We show that such states can be observed for a relatively long time, i.e., they are metastable. A geometrical explanation for such an effect is based on the emergence of a heteroclinic orbit.",

author = "Rico Berner and Jan Fialkowski and Dmitry Kasatkin and Vladimir Nekorkin and Serhiy Yanchuk and Eckehard Sch{\"o}ll",

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T1 - Hierarchical frequency clusters in adaptive networks of phase oscillators

AU - Berner, Rico

AU - Fialkowski, Jan

AU - Kasatkin, Dmitry

AU - Nekorkin, Vladimir

AU - Yanchuk, Serhiy

AU - Schöll, Eckehard

PY - 2019/10/1

Y1 - 2019/10/1

N2 - Adaptive dynamical networks appear in various real-word systems. One of the simplest phenomenological models for investigating basic properties of adaptive networks is the system of coupled phase oscillators with adaptive couplings. In this paper, we investigate the dynamics of this system. We extend recent results on the appearance of hierarchical frequency multiclusters by investigating the effect of the time scale separation. We show that the slow adaptation in comparison with the fast phase dynamics is necessary for the emergence of the multiclusters and their stability. Additionally, we study the role of double antipodal clusters, which appear to be unstable for all considered parameter values. We show that such states can be observed for a relatively long time, i.e., they are metastable. A geometrical explanation for such an effect is based on the emergence of a heteroclinic orbit.

AB - Adaptive dynamical networks appear in various real-word systems. One of the simplest phenomenological models for investigating basic properties of adaptive networks is the system of coupled phase oscillators with adaptive couplings. In this paper, we investigate the dynamics of this system. We extend recent results on the appearance of hierarchical frequency multiclusters by investigating the effect of the time scale separation. We show that the slow adaptation in comparison with the fast phase dynamics is necessary for the emergence of the multiclusters and their stability. Additionally, we study the role of double antipodal clusters, which appear to be unstable for all considered parameter values. We show that such states can be observed for a relatively long time, i.e., they are metastable. A geometrical explanation for such an effect is based on the emergence of a heteroclinic orbit.

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DO - 10.1063/1.5097835

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SN - 1054-1500

VL - 29

JO - Chaos

JF - Chaos

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Hierarchical frequency clusters in adaptive networks of phase oscillators

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