活动驱动的自适应随机共振

Activity driven adaptive stochastic resonance.

作者信息

Wenning G, Obermayer K

机构信息

Department of Electrical Engineering and Computer Science, Technical University of Berlin, Franklinstrasse 28/29, 10587 Berlin, Germany.

出版信息

Phys Rev Lett. 2003 Mar 28;90(12):120602. doi: 10.1103/PhysRevLett.90.120602. Epub 2003 Mar 27.

DOI:10.1103/PhysRevLett.90.120602

PMID:12688861

Abstract

Cortical neurons in vivo show fluctuations in their membrane potential of the order of several milli-volts. Using simple and biophysically realistic models of a single neuron we demonstrate that noise induced fluctuations can be used to adaptively optimize the sensitivity of the neuron's output to ensembles of subthreshold inputs of different average strengths. Optimal information transfer is achieved by changing the strength of the noise such that the neuron's average firing rate remains constant. Adaptation is fast, because only crude estimates of the output rate are required at any time.

摘要

体内的皮层神经元其膜电位会出现几毫伏量级的波动。我们使用单个神经元的简单且符合生物物理实际情况的模型证明，噪声诱导的波动可用于自适应地优化神经元输出对不同平均强度阈下输入集合的敏感性。通过改变噪声强度以使神经元的平均放电率保持恒定，可实现最佳信息传递。适应过程很快，因为在任何时候只需要对输出率进行粗略估计。

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活动驱动的自适应随机共振

Activity driven adaptive stochastic resonance.

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