神经网络中自组织临界性的分析研究。
Analytical investigation of self-organized criticality in neural networks.
机构信息
Bernstein Center for Computational Neuroscience, Haus 2, Philippstrasse 13, Berlin, Germany.
出版信息
J R Soc Interface. 2013 Jan 6;10(78):20120558. doi: 10.1098/rsif.2012.0558. Epub 2012 Sep 12.
Abstract
Dynamical criticality has been shown to enhance information processing in dynamical systems, and there is evidence for self-organized criticality in neural networks. A plausible mechanism for such self-organization is activity-dependent synaptic plasticity. Here, we model neurons as discrete-state nodes on an adaptive network following stochastic dynamics. At a threshold connectivity, this system undergoes a dynamical phase transition at which persistent activity sets in. In a low-dimensional representation of the macroscopic dynamics, this corresponds to a transcritical bifurcation. We show analytically that adding activity-dependent rewiring rules, inspired by homeostatic plasticity, leads to the emergence of an attractive steady state at criticality and present numerical evidence for the system's evolution to such a state.
摘要
动态临界性已被证明可以增强动力系统中的信息处理,并且有证据表明神经网络存在自组织临界性。这种自组织的一个合理机制是依赖于活动的突触可塑性。在这里,我们将神经元建模为自适应网络上的离散状态节点,遵循随机动力学。在一个阈值连接性下,该系统会经历一个动力相变,在此期间持久的活动会出现。在宏观动力学的低维表示中,这对应于一个超临界分岔。我们分析表明,加入受动态平衡可塑性启发的依赖于活动的重连规则,会导致在临界状态下出现一个有吸引力的稳态,并给出了系统演化为这种状态的数值证据。
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