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引用次数: 0
摘要
格式塔心理学家对视觉感知中明显存在的动态现象非常着迷,他们推断这些动态现象是由于按地形组织的大脑场内不断变化的电势造成的。动态场理论(Dynamic Field Theory)后来被推翻了,理由是大脑并不是一个单一的电场,而是一个由离散计算元件组成的、相互关联的丰富网络。尽管如此,这种现代大脑功能概念仍面临着一个挑战,即如何解释感知在空间和时间上都是动态的这一事实。为了探究视觉感知和大脑皮层动态的问题,我们重点研究了双目对抗过程中优势的时空转换。我们开发了心理物理学方法来启动和测量这些转换,并使用功能性磁共振成像(fMRI)来测量其神经伴随物。我们的研究结果表明,在枕叶皮层中,皮层活动波穿过定义主视区和副视区的视网膜位图,这与双目对视时主视波扩散的主观感受是一致的。本文回顾了这些研究的结果。
The Gestalt psychologists were fascinated with dynamics evident in visual perception, and they theorized that these dynamics were attributable to ever-changing electrical potentials within topographically organized brain fields. Dynamic field theory, as it was called, was subsequently discredited on grounds that the brain does not comprise a unitary electrical field but, instead, a richly interconnected network of discrete computing elements. Still, this modern conceptualization of brain function faces the challenge of explaining the fact that perception is dynamic in space and in time. To pursue the question of visual perception and cortical dynamics, we have focused on spatio-temporal transitions in dominance during binocular rivalry. We have developed techniques for initiating and measuring these transitions psychophysically and for measuring their neural concomitants using functional magnetic resonance imaging (fMRI). Our findings disclose the existence of waves of cortical activity that travel across the retinotopic maps that define primary and secondary visual areas within occipital cortex, in correspondence with the subjective perception of spreading waves of dominance during binocular rivalry. This paper reviews the results from those studies.
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