距离依赖耦合下神经网络的同步延展性

R. Budzinski, K. L. Rossi, B. Boaretto, T. L. Prado, S. R. Lopes
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引用次数: 4

摘要

我们研究了一个基于幂律模型的距离依赖耦合下的尖峰神经元网络的同步特征。拓扑结构和耦合强度之间的相互作用导致了不同时空模式的存在,对应于非同步或相同步状态。特别有趣的是我们所说的同步延展性,在这种情况下,对于相同的参数,系统描述了显著不同的相位同步度,这是神经输入顺序不同的结果。我们通过计算神经元尖峰序列之间的互信息来分析网络的功能连通性,使我们能够表征网络中的同步结构。我们表明,这些结构依赖于网络呈现同步延展性的参数区域的输入顺序,我们认为这是由于局部和全局效应之间的平衡。
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Synchronization malleability in neural networks under a distance-dependent coupling
We investigate the synchronization features of a network of spiking neurons under a distance-dependent coupling following a power-law model. The interplay between topology and coupling strength leads to the existence of different spatiotemporal patterns, corresponding to either non-synchronized or phase-synchronized states. Particularly interesting is what we call synchronization malleability, in which the system depicts significantly different phase synchronization degrees for the same parameters as a consequence of a different ordering of neural inputs. We analyze the functional connectivity of the network by calculating the mutual information between neuronal spike trains, allowing us to characterize the structures of synchronization in the network. We show that these structures are dependent on the ordering of the inputs for the parameter regions where the network presents synchronization malleability and we suggest that this is due to a balance between local and global effects.
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