猕猴初级视皮层感受野的时空要素

Spatiotemporal elements of macaque v1 receptive fields.

作者信息

Rust Nicole C, Schwartz Odelia, Movshon J Anthony, Simoncelli Eero P

机构信息

Center for Neural Science and New York University, New York, New York 10003, USA.

出版信息

Neuron. 2005 Jun 16;46(6):945-56. doi: 10.1016/j.neuron.2005.05.021.

DOI:10.1016/j.neuron.2005.05.021

PMID:15953422

Abstract

Neurons in primary visual cortex (V1) are commonly classified as simple or complex based upon their sensitivity to the sign of stimulus contrast. The responses of both cell types can be described by a general model in which the outputs of a set of linear filters are nonlinearly combined. We estimated the model for a population of V1 neurons by analyzing the mean and covariance of the spatiotemporal distribution of random bar stimuli that were associated with spikes. This analysis reveals an unsuspected richness of neuronal computation within V1. Specifically, simple and complex cell responses are best described using more linear filters than the one or two found in standard models. Many filters revealed by the model contribute suppressive signals that appear to have a predominantly divisive influence on neuronal firing. Suppressive signals are especially potent in direction-selective cells, where they reduce responses to stimuli moving in the nonpreferred direction.

摘要

初级视觉皮层（V1）中的神经元通常根据其对刺激对比度符号的敏感性分为简单细胞或复杂细胞。这两种细胞类型的反应都可以用一个通用模型来描述，在该模型中，一组线性滤波器的输出进行非线性组合。我们通过分析与尖峰相关的随机条形刺激的时空分布的均值和协方差，估计了V1神经元群体的模型。该分析揭示了V1内神经元计算中意想不到的丰富性。具体而言，与标准模型中发现的一个或两个线性滤波器相比，使用更多的线性滤波器能更好地描述简单细胞和复杂细胞的反应。该模型揭示的许多滤波器会贡献抑制性信号，这些信号似乎对神经元放电主要产生除法影响。抑制性信号在方向选择性细胞中尤其有效，它们会降低对沿非偏好方向移动的刺激的反应。

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猕猴初级视皮层感受野的时空要素

Spatiotemporal elements of macaque v1 receptive fields.

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