Spiral Waves and Multiple Spatial Coherence Resonances Induced by Colored Noise in Neuronal Network

Gaussian colored noise induced spatial patterns and spatial coherence resonances in a square lattice neuronal network composed of Morris-Lecar neurons are studied. Each neuron is at resting state near a saddle-node bifurcation on invariant circle, coupled to its nearest neighbors by electronic coupl...

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Veröffentlicht in:	Communications in theoretical physics 2012, Vol.57 (1), p.61-67
1. Verfasser:	唐昭李玉叶惠磊贾冰吉华光
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Sprache:	eng
Schlagworte:	Coherence Gaussian Invariants Mathematical analysis Networks Neurons Noise Spirals 和空间有色噪声相干共振神经网络空间结构螺旋波诱导高斯色噪声
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description	Gaussian colored noise induced spatial patterns and spatial coherence resonances in a square lattice neuronal network composed of Morris-Lecar neurons are studied. Each neuron is at resting state near a saddle-node bifurcation on invariant circle, coupled to its nearest neighbors by electronic coupling. Spiral waves with different structures and disordered spatial structures can be alternately induced within a large range of noise intensity. By calculating spatial structure function and signal-to-noise ratio （SNR）, it is found that SNR values are higher when the spiral structures are simple and are lower when the spatial patterns are complex or disordered, respectively. SNR manifest multiple local maximal peaks, indicating that the colored noise can induce multiple spatial coherence resonances. The maximal SNR values decrease as the correlation time of the noise increases. These results not only provide an example of multiple resonances, but also show that Gaussian colored noise play constructive roles in neuronal network.
doi_str_mv	10.1088/0253-6102/57/1/10
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source	IOP Publishing Journals; Institute of Physics (IOP) Journals - HEAL-Link; Alma/SFX Local Collection
subjects	Coherence Gaussian Invariants Mathematical analysis Networks Neurons Noise Spirals 和空间有色噪声相干共振神经网络空间结构螺旋波诱导高斯色噪声
title	Spiral Waves and Multiple Spatial Coherence Resonances Induced by Colored Noise in Neuronal Network
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