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准备电位的形状、主观决策时间和由具有时间自相关输入噪声的累积器模型预测的等待时间之间的特定关系。

Specific Relationship between the Shape of the Readiness Potential, Subjective Decision Time, and Waiting Time Predicted by an Accumulator Model with Temporally Autocorrelated Input Noise.

机构信息

Cognitive Neuroimaging Unit, INSERM, Gif sur Yvette 91191, France.

Commissariat à l'Energie Atomique, NeuroSpin Center, Gif sur Yvette 91191, France.

出版信息

eNeuro. 2018 Feb 12;5(1). doi: 10.1523/ENEURO.0302-17.2018. eCollection 2018 Jan-Feb.

DOI:10.1523/ENEURO.0302-17.2018
PMID:29464192
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5815661/
Abstract

Self-initiated movements are reliably preceded by a gradual buildup of neuronal activity known as the readiness potential (RP). Recent evidence suggests that the RP may reflect subthreshold stochastic fluctuations in neural activity that can be modeled as a process of accumulation to bound. One element of accumulator models that has been largely overlooked in the literature is the stochastic term, which is traditionally modeled as Gaussian white noise. While there may be practical reasons for this choice, we have long known that noise in neural systems is not white - it is long-term correlated with spectral density of the form 1/(with roughly 1 < β < 3) across a broad range of spatial scales. I explored the behavior of a leaky stochastic accumulator when the noise over which it accumulates is temporally autocorrelated. I also allowed for the possibility that the RP, as measured at the scalp, might reflect the input to the accumulator (i.e., its stochastic noise component) rather than its output. These two premises led to two novel predictions that I empirically confirmed on behavioral and electroencephalography data from human subjects performing a self-initiated movement task. In addition to generating these two predictions, the model also suggested biologically plausible levels of autocorrelation, consistent with the degree of autocorrelation in our empirical data and in prior reports. These results expose new perspectives for accumulator models by suggesting that the spectral properties of the stochastic input should be allowed to vary, consistent with the nature of biological neural noise.

摘要

自发运动可靠地以前额叶准备电位(readiness potential,RP)的形式出现,这是一种逐渐增强的神经元活动。最近的证据表明,RP 可能反映了亚阈值随机波动的神经活动,可以将其建模为一个积累到界限的过程。在文献中,累加器模型的一个元素在很大程度上被忽视了,那就是随机项,它通常被建模为高斯白噪声。虽然这种选择可能有实际的原因,但我们早就知道,神经系统中的噪声不是白色的——它在很大的空间尺度范围内与形式为 1/的频谱密度长期相关,其中 1<β<3。我研究了当它积累的噪声具有时间自相关性时,泄漏随机累加器的行为。我还允许头皮上测量的 RP 可能反映累加器的输入(即其随机噪声分量)而不是其输出。这两个前提导致了两个新的预测,我通过对人类进行自主运动任务的行为和脑电图数据进行实证验证,证实了这两个预测。除了产生这两个预测外,该模型还提出了具有生物合理性的自相关水平,与我们的经验数据和先前报告中的自相关程度一致。这些结果通过表明随机输入的频谱特性应该允许变化,与生物神经噪声的性质一致,为累加器模型提供了新的视角。

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