Delay-induced firing behavior and transitions in adaptive neuronal networks with two types of synapses

被引：0

作者：

XU Bo ^{[1
]}

GONG YuBing ^{[1
]}

WANG BaoYing ^{[2
]}

机构：

[1] School of Physics and Optoelectronic Engineering, Ludong University

[2] Library, Ludong University

来源：

Science China(Chemistry) | 2013年 / 02期

关键词：

neuron; electrical synapse; chemical synapse; Newman–Watts network; adaptive coupling; time delay; firing transition;

D O I：

暂无

中图分类号：

TP183 [人工神经网络与计算];

学科分类号：

081104 ; 0812 ; 0835 ; 1405 ;

摘要：

In this paper, we study delay-induced firing behavior and transitions in adaptive Newman-Watts networks of thermosensitive neurons with electrical or chemical synapses. It is found that electrical and chemical synapse time delay-induced firing behavior and transitions differ significantly. In the case of electrical synapses, the bursts for a fixed delay involve equal number of spikes in each burst, and for certain time delays the firing can be inhibited. However, in the case of chemical synapses the bursts for a fixed delay involve different numbers of spikes in each burst, and no firing inhibition is observed. It is also shown that larger growth rates of adaptive coupling strength or larger network randomness can enhance the synchronization of bursting in the case of electrical synapses but reduce it in the case of chemical synapses. These results show that electrical and chemical synapses have different effects on delay-induced firing behavior and dynamical evolution. Compared to electrical synapses, chemical synapses might be more beneficial to the generation of firing and abundant firing transitions in adaptive and delayed neuronal networks. These findings can help to better understand different firing behaviors in neuronal networks with electrical and chemical synapses.

引用

页码：224 / 231

页数：8

共 15 条

[1]

Chemical synaptic coupling-induced delay-dependent synchronization transitions in scale-free neuronal networks[J]. GONG YuBing*,LIN Xiu,WANG Li & HAO YingHang School of Physics,Ludong University,Yantai 264025,China.Science China(Chemistry). 2011(09)

[2]

Multiple resonances with time delays in scale-free networks of Hodgkin-Huxley neurons subjected to non-Gaussian noise[J]. HAO YingHang,GONG YuBing,LIN Xiu & WANG Li School of Physics,Ludong University,Yantai 264025,China.Science China(Chemistry). 2011(05)

[3]

Delay-induced coherence bi-resonance-like behavior in stochastic Hodgkin-Huxley neuron networks[J]. HAO YingHang,GONG YuBing,LIN Xiu & MA XiaoGuang School of Physics,Ludong University,Yantai 264025,China.Science China(Chemistry). 2010(08)

[4]

Spatiotemporal dynamics on small-world neuronal networks: The roles of two types of time-delayed coupling[J] . Hao Wu,Huijun Jiang,Zhonghuai Hou.Chaos, Solitons and Fractals . 2011 (10)

[5]

Single or multiple synchronization transitions in scale-free neuronal networks with electrical or chemical coupling[J] . Yinghang Hao,Yubing Gong,Li Wang,Xiaoguang Ma,Chuanlu Yang.Chaos, Solitons and Fractals . 2011 (4)

[6] Phase plane approach to cooperative rhythms in neuron motifs with delayed inhibitory synapses [J].

Franovic, I. ;

Miljkovic, V. .

EPL, 2010, 92 (06)

[7]

Glia: The many ways to modulate synaptic plasticity[J] . S. Ben Achour,O. Pascual.Neurochemistry International . 2010 (4)

[8]

Ordering chaos and synchronization transitions by chemical delay and coupling on scale-free neuronal networks[J] . Yubing Gong,Yanhang Xie,Xiu Lin,Yinghang Hao,Xiaoguang Ma.Chaos, Solitons and Fractals . 2010 (1)

[9] Synaptic stability and plasticity in a floating world [J].

Gerrow, Kimberly ;

Triller, Antoine .

CURRENT OPINION IN NEUROBIOLOGY, 2010, 20 (05) :631-639

[10]

Renormalization group analysis of the small-world network model[J] . M.E.J. Newman,D.J. Watts.Physics Letters A . 1999 (4)

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