Frequency chimera state induced by time delays in FitzHugh-Nagumo neural networks

IF 4.6 2区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
ShouFang Huang, ChengYu Yu, ZhengGang Cai, JiQian Zhang, MaoSheng Wang, Fei Xu
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引用次数: 0

Abstract

The delay of information transmission is an inherent factor of the nervous systems, which has great influences on their collective dynamic behaviors. In this paper, we constructed a ring neural network using FitzHugh-Nagumo (FHN) neuron model as the network node and memristive synapses as the connection mode. Our primary focus was on investigating the effects of time delay and coupling strength on the firing frequency of neurons. Simulation results revealed that the frequency chimera state could be induced in the neural network with appropriate time delay, which is a new type of chimera state characterized by firing frequency rather than traditional membrane potential. By adjusting the time delay properly, the neural network can also display multi-cluster frequency chimera states that coexisted with various incoherent regions and coherent regions. Meanwhile, we exhibit that initial value and coupling strength could have great influences on the effects of time delay on inducing frequency chimera state of the nervous systems.

Abstract Image

FitzHugh-Nagumo 神经网络中时间延迟引起的频率嵌合态
信息传输延迟是神经系统的固有因素,对其集体动态行为有很大影响。本文以 FitzHugh-Nagumo(FHN)神经元模型为网络节点,以记忆性突触为连接方式,构建了一个环形神经网络。我们的主要重点是研究时间延迟和耦合强度对神经元发射频率的影响。仿真结果表明,通过适当的时间延迟可以在神经网络中诱导出频率嵌合态,这是一种以发射频率而非传统膜电位为特征的新型嵌合态。通过适当调整时延,神经网络还能呈现出多簇频率嵌合态,即各种非相干区和相干区共存。同时,我们还发现初始值和耦合强度对时间延迟诱导神经系统频率嵌合态的效果有很大影响。
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来源期刊
Chinese Journal of Physics
Chinese Journal of Physics 物理-物理:综合
CiteScore
8.50
自引率
10.00%
发文量
361
审稿时长
44 days
期刊介绍: The Chinese Journal of Physics publishes important advances in various branches in physics, including statistical and biophysical physics, condensed matter physics, atomic/molecular physics, optics, particle physics and nuclear physics. The editors welcome manuscripts on: -General Physics: Statistical and Quantum Mechanics, etc.- Gravitation and Astrophysics- Elementary Particles and Fields- Nuclear Physics- Atomic, Molecular, and Optical Physics- Quantum Information and Quantum Computation- Fluid Dynamics, Nonlinear Dynamics, Chaos, and Complex Networks- Plasma and Beam Physics- Condensed Matter: Structure, etc.- Condensed Matter: Electronic Properties, etc.- Polymer, Soft Matter, Biological, and Interdisciplinary Physics. CJP publishes regular research papers, feature articles and review papers.
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