Synchronized dynamics of cortical neurons with time-delay feedback.

Alexandra S Landsman, Ira B Schwartz
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引用次数: 14

Abstract

The dynamics of three mutually coupled cortical neurons with time delays in the coupling are explored numerically and analytically. The neurons are coupled in a line, with the middle neuron sending a somewhat stronger projection to the outer neurons than the feedback it receives, to model for instance the relay of a signal from primary to higher cortical areas. For a given coupling architecture, the delays introduce correlations in the time series at the time-scale of the delay. It was found that the middle neuron leads the outer ones by the delay time, while the outer neurons are synchronized with zero lag times. Synchronization is found to be highly dependent on the synaptic time constant, with faster synapses increasing both the degree of synchronization and the firing rate. Analysis shows that pre-synaptic input during the inter-spike interval stabilizes the synchronous state, even for arbitrarily weak coupling, and independent of the initial phase. The finding may be of significance to synchronization of large groups of cells in the cortex that are spatially distanced from each other.

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具有时滞反馈的皮质神经元同步动力学。
对三个相互耦合的皮质神经元在耦合过程中存在时滞的动力学特性进行了数值和解析研究。神经元连接成一条线,中间的神经元向外部神经元发送比它接收到的反馈更强的投射,以模拟信号从初级到高级皮质区域的传递。对于给定的耦合体系结构,延迟在延迟的时间尺度上引入了时间序列中的相关性。结果表明,中间神经元以滞后时间领先于外部神经元,而外部神经元以零滞后时间同步。同步被发现高度依赖于突触时间常数,更快的突触增加同步程度和放电速率。分析表明,即使在任意弱耦合的情况下,在尖峰间的突触前输入也能稳定同步状态,并且与初始相位无关。这一发现可能对在空间上彼此相距遥远的皮层中大量细胞的同步性具有重要意义。
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