Bifurcation structure determines different phase-amplitude coupling patterns in the activity of biologically plausible neural networks

Matias Velarde Osvaldo; Urdapilleta Eugenio; Mato German; Dellavale Damian

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Bifurcation structure determines different phase-amplitude coupling patterns in the activity of biologically plausible neural networks

机译：分叉结构在生物合理的神经网络的活动中确定不同的相位幅度耦合模式

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摘要

Phase-amplitude cross frequency coupling (PAC) is a rather ubiquitous phenomenon that has been observed in a variety of physical domains; however, the mechanisms underlying the emergence of PAC and its functional significance in the context of neural processes are open issues under debate.

机译：相位幅度横频耦合（PAC）是在各种物理域中观察到的相当普遍的现象; 然而，在神经过程的背景下，PAC出现的机制及其在神经过程背景下的功能意义是在辩论下的开放问题。

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来源
《NeuroImage》 |2019年第2019期|共20页
作者
Matias Velarde Osvaldo; Urdapilleta Eugenio; Mato German; Dellavale Damian;
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作者单位

Univ Nacl Cuyo UNCUYO CNEA CONICET Ctr Atom Bariloche Av E Bustillo 9500 R8402AGP San Carlos;

Univ Nacl Cuyo UNCUYO CNEA CONICET Ctr Atom Bariloche Av E Bustillo 9500 R8402AGP San Carlos;

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原文格式 PDF
正文语种 eng
中图分类诊断学;
关键词
Cross-frequency coupling; Phase-amplitude coupling; Bifurcation structure; Neural network; Parkinson's disease;

机译：横频耦合;相位振幅耦合;分叉结构;神经网络;帕金森病;

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1. Bifurcation structure determines different phase-amplitude coupling patterns in the activity of biologically plausible neural networks [J] . Matias Velarde Osvaldo, Urdapilleta Eugenio, Mato German, NeuroImage . 2019,第期

机译：分叉结构在生物合理的神经网络的活动中确定不同的相位幅度耦合模式
2. Bifurcation analysis and spatio-temporal patterns of nonlinear oscillations in a delayed neural network with unidirectional coupling [J] . Yongli Song, Moses O Tadé, Tonghua Zhang Nonlinearity . 2009,第5期

机译：单向时滞神经网络中非线性振荡的分叉分析和时空分布
3. Pattern Storage, Bifurcations, and Groupwise Correlation Structure of an Exactly Solvable Asymmetric Neural Network Model [J] . Diego Fasoli, Anna Cattani, Stefano Panzeri Neural computation . 2018,第5期

机译：完全可解决的不对称神经网络模型的模式存储，分叉和群相关结构
4. Wide learning: Using an ensemble of biologically-plausible spiking neural networks for unsupervised parallel classification of spatio-temporal patterns [C] . Katarzyna Kozdon, Peter Bentley IEEE Symposium Series on Computational Intelligence . 2017

机译：广泛学习：使用生物学上可行的突跳神经网络的集合进行时空模式的无监督并行分类
5. Prediction of chemical properties and biological activities of organic compounds from molecular structure and use of probabilistic and generalized regression neural networks. [D] . Mosier, Philip D. 2003

机译：从分子结构以及概率和广义回归神经网络的使用来预测有机化合物的化学性质和生物活性。
6. Bifurcation Analysis on Phase-Amplitude Cross-Frequency Coupling in Neural Networks with Dynamic Synapses [O] . Takumi Sase, Yuichi Katori, Motomasa Komuro, 2017

机译：具有动态突触的神经网络中相-幅跨频耦合的分叉分析
7. Bifurcation Analysis on Phase-Amplitude Cross-Frequency Coupling in Neural Networks with Dynamic Synapses [O] . Takumi Sase, Yuichi Katori, Motomasa Komuro, 2017

机译：具有动态突触的神经网络中相位幅度交叉耦合的分岔分析

Bifurcation structure determines different phase-amplitude coupling patterns in the activity of biologically plausible neural networks

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