PERIODIC COUPLING STRENGTH-ENHANCED COHERENCE RESONANCE INDUCED BY A PARTICULAR KIND OF NON-GAUSSIAN NOISE IN NEURONAL NETWORKS

YUBING GONG∗ LI WANG and BO XU

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PERIODIC COUPLING STRENGTH-ENHANCED COHERENCE RESONANCE INDUCED BY A PARTICULAR KIND OF NON-GAUSSIAN NOISE IN NEURONAL NETWORKS

机译：神经网络中一类非高斯噪声诱发的周期耦合强度增强相干共振

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摘要

In this Letter, we study the effect of time-periodic coupling strength (TPCS) on the coherence resonance (CR) of spiking behavior induced by a particular kind of non-Gaussian noise in Newman–Watts networks of Hodgkin–Huxley neurons. It is found that the CR by the non-Gaussian noise can be enhanced by TPCS when TPCS frequency is equal to or multiple of the inverse of the refractory period, and can occur in networks with more random shortcuts for TPCS than for constant coupling strength. Furthermore, the CR by the non-Gaussian noise can occur at smaller TPCS frequency when network randomness increases. These results show that the CR by the non-Gaussian noise can be enhanced by TPCS and can occur in more complex networks in case of TPCS. These findings may help to better understand the joint roles of the non-Gaussian noise and TPCS in the spiking activity of the neuronal networks.

机译：在这封信中，我们研究了时间周期耦合强度（TPCS）对霍奇金–赫克斯利神经元纽曼–瓦茨网络中一种特殊的非高斯噪声引起的尖峰行为的相干共振（CR）的影响。已发现，当TPCS频率等于或等于不应期的倒数的倍数时，非高斯噪声的CR可以通过TPCS增强，并且可能出现在具有比恒定耦合强度更多的TPCS随机捷径的网络中。此外，当网络随机性增加时，非高斯噪声引起的CR可能会出现在较小的TPCS频率上。这些结果表明，非高斯噪声的CR可以通过TPCS增强，并且在TPCS的情况下，可能会出现在更复杂的网络中。这些发现可能有助于更好地理解非高斯噪声和TPCS在神经网络尖峰活动中的联合作用。

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来源
《Fluctuation and Noise Letters》 |2012年第4期|p.1-11|共11页
作者
YUBING GONG∗ LI WANG and BO XU;
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作者单位

School of Physics and Optoelectronic EngineeringLudong University, Yantai, Shandong 264025, P. R. China;

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正文语种 eng
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关键词
Neuron; Newman-Watts network; non-Gaussian noise; coherence resonance; time periodic coupling strength.;

机译：神经元;纽曼-瓦茨网络;非高斯噪声;相干共振;时间周期耦合强度;

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专利

1. Periodic coupling strength-enhanced coherence resonance induced by a particular kind of non-gaussian noise in neuronal networks [J] . Gong Y., Wang L., Xu B. Fluctuation and Noise Letters: FNL: An Interdisciplinary Scientific Journal on Random Processes in Physical, Biological and Technological Systems . 2012,第4期

机译：神经网络中一种特殊的非高斯噪声引起的周期性耦合强度增强的相干共振
2. Dependence of delay-induced coherence resonance on time-periodic coupling strength in Newman-Watts neuronal networks [J] . B. Xu, Y. B. Gong, L. Wang, The European Physical Journal B - Condensed Matter and Complex Systems . 2012,第9期

机译：延迟诱导的相干共振对纽曼-瓦茨神经网络中时间周期耦合强度的依赖性
3. Dependence of delay-induced coherence resonance on time-periodic coupling strength in Newman-Watts neuronal networks [J] . B. Xu, Y.B. Gonga, L. Wang, The European physical journal, B. Condensed matter physics . 2012,第9期

机译：延迟诱导的相干共振对Newman-Watts神经元网络中时间周期耦合强度的依赖性
4. Coherence Resonance: A Mechanism for Noise Induced Stable Oscillations in Gene Regulatory Networks [C] . El-Samad, H., Khammash, . 2006

机译：相干共振：基因调控网络中噪声诱导的稳定振荡的机制。
5. Neural network based optimum target detection in non-Gaussian noise environments. [D] . Kim, Moon Won. 1992

机译：在非高斯噪声环境中基于神经网络的最佳目标检测。
6. Autapse-induced multiple coherence resonance in single neurons and neuronal networks [O] . Ergin Yilmaz, Mahmut Ozer, Veli Baysal, -1

机译：Autapse诱导单个神经元和神经元网络中的多个相干共振
7. Autapse-induced multiple coherence resonance in single neurons and neuronal networks [O] . Yilmaz, Ergin, Ozer, Mahmut, Baysal, Veli, 2017

机译：尸检引起的单个神经元和神经网络的多重相干共振
8. Blast Induced Thresholds for Neuronal Networks (BITNeT). [R] . Bass, D., Morrison, B., Meaney, D. F., 2017

机译：神经网络的爆炸诱导阈值（BITNeT）。

PERIODIC COUPLING STRENGTH-ENHANCED COHERENCE RESONANCE INDUCED BY A PARTICULAR KIND OF NON-GAUSSIAN NOISE IN NEURONAL NETWORKS

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