神经元作为理想的变化点检测器。

Neurons as ideal change-point detectors.

作者信息

Kim Hideaki, Richmond Barry J, Shinomoto Shigeru

机构信息

Department of Physics, Graduate School of Science, Kyoto University, Kyoto 606-8502, Japan.

出版信息

J Comput Neurosci. 2012 Feb;32(1):137-46. doi: 10.1007/s10827-011-0344-x. Epub 2011 Jun 4.

DOI:10.1007/s10827-011-0344-x

PMID:21643776

Abstract

Every computational unit in the brain monitors incoming signals, instant by instant, for meaningful changes in the face of stochastic fluctuation. Recent studies have suggested that even a single neuron can detect changes in noisy signals. In this paper, we demonstrate that a single leaky integrate-and-fire neuron can achieve change-point detection close to that of theoretical optimal, for uniform-rate process, functions even better than a Bayes-optimal algorithm when the underlying rate deviates from a presumed uniform rate process. Given a reasonable number of synaptic connections (order 10(4)) and the rate of the input spike train, the values of the membrane time constant and the threshold found for optimizing change-point detection are close to those seen in biological neurons. These findings imply that biological neurons could act as sophisticated change-point detectors.

摘要

大脑中的每个计算单元都时刻监控传入信号，以在随机波动的情况下检测有意义的变化。最近的研究表明，即使单个神经元也能检测噪声信号中的变化。在本文中，我们证明，对于均匀速率过程，单个泄漏积分发放神经元能够实现接近理论最优的变化点检测，当基础速率偏离假定的均匀速率过程时，其性能甚至优于贝叶斯最优算法。给定合理数量的突触连接（10⁴量级）和输入脉冲序列的速率，为优化变化点检测而找到的膜时间常数和阈值的值与生物神经元中的值相近。这些发现意味着生物神经元可能充当复杂的变化点检测器。

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神经元作为理想的变化点检测器。

Neurons as ideal change-point detectors.

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