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耦合噪声可激发系统中的同步机制。

Synchronization regimes in coupled noisy excitable systems.

作者信息

Hu B, Zhou C

机构信息

Department of Physics and Center for Nonlinear Studies, Hong Kong Baptist University, Hong Kong, China.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2001 Feb;63(2 Pt 2):026201. doi: 10.1103/PhysRevE.63.026201. Epub 2001 Jan 10.

Abstract

We study synchronization regimes in a system of two coupled noisy excitable systems which exhibit excitability close to an Andronov bifurcation. The uncoupled system possesses three fixed points: a node, a saddle, and an unstable focus. We demonstrate that with an increase of coupling strength the system undergoes transitions from a desynchronous state to a train synchronization regime to a phase synchronization regime, and then to a complete synchronization regime. Train synchronization is a consequence of the existence of a saddle in the phase space. The mechanism of transitions in coupled noisy excitable systems is different from that in coupled phase-coherent chaotic systems.

摘要

我们研究了两个耦合的噪声可激发系统组成的系统中的同步状态,这些系统表现出接近安德罗诺夫分岔的可激发性。未耦合系统有三个不动点:一个节点、一个鞍点和一个不稳定焦点。我们证明,随着耦合强度的增加,系统经历从不同步状态到序列同步状态再到相位同步状态,然后到完全同步状态的转变。序列同步是相空间中存在鞍点的结果。耦合噪声可激发系统中的转变机制与耦合相位相干混沌系统中的不同。

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