皮层中的颜色:单拮抗细胞和双拮抗细胞。
Color in the cortex: single- and double-opponent cells.
作者信息
Shapley Robert, Hawken Michael J
机构信息
Center for Neural Science, New York University, 4 Washington Place, New York, NY 10003, United States.
出版信息
Vision Res. 2011 Apr 13;51(7):701-17. doi: 10.1016/j.visres.2011.02.012. Epub 2011 Feb 17.
Abstract
This is a review of the research during the past 25years on cortical processing of color signals. At the beginning of the period the modular view of cortical processing predominated. However, at present an alternative view, that color and form are linked inextricably in visual cortical processing, is more persuasive than it seemed in 1985. Also, the role of the primary visual cortex, V1, in color processing now seems much larger than it did in 1985. The re-evaluation of the important role of V1 in color vision was caused in part by investigations of human V1 responses to color, measured with functional magnetic resonance imaging, fMRI, and in part by the results of numerous studies of single-unit neurophysiology in non-human primates. The neurophysiological results have highlighted the importance of double-opponent cells in V1. Another new concept is population coding of hue, saturation, and brightness in cortical neuronal population activity.
摘要
这是一篇对过去25年中关于颜色信号皮质处理研究的综述。在这一时期开始时,皮质处理的模块化观点占主导地位。然而,目前有一种替代观点,即在视觉皮质处理中颜色和形状紧密相连,这种观点比1985年时看起来更有说服力。此外,初级视觉皮质V1在颜色处理中的作用现在似乎比1985年时大得多。对V1在颜色视觉中重要作用的重新评估,部分是由于通过功能磁共振成像(fMRI)测量人类V1对颜色的反应的研究,部分是由于对非人类灵长类动物单单元神经生理学的大量研究结果。神经生理学结果突出了V1中双拮抗细胞的重要性。另一个新概念是皮质神经元群体活动中色调、饱和度和亮度的群体编码。
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