人类

Pub Date : 2018-06-27 DOI:10.4324/9781315391229-4
P. Corr, Anke C. Plagnol
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引用次数: 0

摘要

在视觉和功能磁共振成像(fMRI)研究。这些是漂移的正弦波光栅,类似于以前在猕猴单细胞区域求和研究中使用的方法。建立了一个模型,以方便比较功能磁共振成像的面积总和与心理物理和单细胞的面积总和。该模型由在初级视觉皮层单细胞中发现的具有拮抗感受野结构的单元组成。模型神经元的感受野中心分布在单个体素覆盖的视野区域。测量的面积和函数在质量上与早期的单细胞数据相似。该模型的参数来源于心理物理学,通过功能磁共振成像(fMRI)捕获了初级视觉皮层中求和场的空间结构。该模型还推广到神经群偏离刺激中心的新情况。目前的研究表明,在单细胞和人类中,情境调节源于相似的空间拮抗和重叠的兴奋和抑制机制
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HUMAN
investigated in vision with and functional magnetic resonance imaging (fMRI). The were drifting sine wave gratings similar to used in previous macaque single-cell area summation studies. A model was developed to facilitate comparison of area summation in fMRI to area summation in psychophysics and single cells. The model consisted of units with an antagonistic receptive field structure found in single cells in the primary visual cortex. The receptive field centers of the model neurons were distributed in the region of the visual field covered by a single voxel. The measured area summation functions were qualitatively similar to earlier single-cell data. The model with parameters derived from psychophysics captured the spatial structure of the summation field in the primary visual cortex as measured with fMRI. The model also generalized to a novel situation in which the neural population was displaced from the stimulus center. The current study shows that contextual modulation arises from similar spatially antagonistic and overlapping excitatory and inhibitory mechanisms, both in single cells and in human
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