神经元雪崩临界性的识别：I. 无驱动情况下的理论研究。

Identification of Criticality in Neuronal Avalanches: I. A Theoretical Investigation of the Non-driven Case.

机构信息

Centre for Computational Neuroscience and Robotics, University of Sussex, Falmer, Brighton, BN1 9QH, UK.

出版信息

J Math Neurosci. 2013 Apr 23;3(1):5. doi: 10.1186/2190-8567-3-5.

DOI:10.1186/2190-8567-3-5

PMID:23618010

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3679959/

Abstract

In this paper, we study a simple model of a purely excitatory neural network that, by construction, operates at a critical point. This model allows us to consider various markers of criticality and illustrate how they should perform in a finite-size system. By calculating the exact distribution of avalanche sizes, we are able to show that, over a limited range of avalanche sizes which we precisely identify, the distribution has scale free properties but is not a power law. This suggests that it would be inappropriate to dismiss a system as not being critical purely based on an inability to rigorously fit a power law distribution as has been recently advocated. In assessing whether a system, especially a finite-size one, is critical it is thus important to consider other possible markers. We illustrate one of these by showing the divergence of susceptibility as the critical point of the system is approached. Finally, we provide evidence that power laws may underlie other observables of the system that may be more amenable to robust experimental assessment.

摘要

在本文中，我们研究了一个简单的纯兴奋性神经网络模型，该模型通过构造在临界点运行。该模型允许我们考虑各种临界点标记，并说明它们在有限大小的系统中应如何表现。通过计算确切的雪崩大小分布，我们能够表明，在我们精确确定的有限的雪崩大小范围内，该分布具有无标度特性，但不是幂律。这表明，仅仅因为无法严格拟合幂律分布，就将一个系统排除在临界点之外是不合适的，这种情况最近得到了提倡。因此，在评估一个系统（尤其是有限大小的系统）是否处于临界点时，重要的是要考虑其他可能的标记。我们通过显示系统临界点时的磁化率发散来说明其中之一。最后，我们提供了证据表明，幂律可能是系统其他可观察量的基础，这些可观察量可能更适合稳健的实验评估。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8ecc/3679959/cddf493281f1/2190-8567-3-5-1.jpg

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神经元雪崩临界性的识别：I. 无驱动情况下的理论研究。

Identification of Criticality in Neuronal Avalanches: I. A Theoretical Investigation of the Non-driven Case.

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