耦合模型神经元群体中的噪声整形
Noise shaping in populations of coupled model neurons.
作者信息
Mar D J, Chow C C, Gerstner W, Adams R W, Collins J J
机构信息
Center for BioDynamics and Department of Biomedical Engineering, Boston University, Boston, MA 02215, USA.
出版信息
Proc Natl Acad Sci U S A. 1999 Aug 31;96(18):10450-5. doi: 10.1073/pnas.96.18.10450.
Abstract
Biological information-processing systems, such as populations of sensory and motor neurons, may use correlations between the firings of individual elements to obtain lower noise levels and a systemwide performance improvement in the dynamic range or the signal-to-noise ratio. Here, we implement such correlations in networks of coupled integrate-and-fire neurons using inhibitory coupling and demonstrate that this can improve the system dynamic range and the signal-to-noise ratio in a population rate code. The improvement can surpass that expected for simple averaging of uncorrelated elements. A theory that predicts the resulting power spectrum is developed in terms of a stochastic point-process model in which the instantaneous population firing rate is modulated by the coupling between elements.
摘要
生物信息处理系统,比如感觉神经元和运动神经元群体,可能会利用单个元件放电之间的相关性来获得更低的噪声水平,并在动态范围或信噪比方面实现全系统性能的提升。在此,我们通过抑制性耦合在耦合积分发放神经元网络中实现这种相关性,并证明这可以在群体速率编码中提高系统动态范围和信噪比。这种提升可能超过对不相关元件进行简单平均所预期的效果。我们根据一个随机点过程模型发展出一种理论,该模型中元件之间的耦合对瞬时群体放电率进行调制,以此预测所产生的功率谱。
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