视觉方位、方向选择性曾被认为是高等哺乳动物视皮层细胞的特有功能。
Since the work of Hubel and Wiesel, it is generally accepted that visual orientation and direction selectivity are achieved by processes in the visual cortex in the higher mammals.
因此本研究为大面积地确定视皮层细胞感受野在视野中的位置提供了一种快速和较准确的方法。
This experiment provides a fast and relatively accurate method to calculate the retinotopic eccentricities in a large cortical area of the visual cortex.
对几种特殊的输入函数进行了编码仿真实验,结果说明了视皮层复杂细胞时空整合编码序列的精细时间结构能够进行视觉输入的神经表象。
The simulated results for three special input functions show the finer structure of spatiotemporal integration coding series of complex cells in visual cortex could represent visual inputs.
目的研究大鼠发育过程中视皮层神经元的突触后电流变化,探讨视皮层视觉依赖性突触的形成和重新分布的细胞内机制。
Objective To investigate the changes of post synaptic currents (PSCs) of neurons in developing visual cortex for intracellular mechanisms of experience dependent synapse formation and redistribution.
以视皮层简单细胞生理实验结果为基础,阐述了视皮层简单细胞的生理结构和功能。
Based on the result of visual cortex simple cells physiological experiment, biological structure and function of visual cortex simple cells is elaborated.
以视皮层简单细胞生理实验结果为基础,阐述了视皮层简单细胞的生理结构和功能。
Based on the result of visual cortex simple cells physiological experiment, biological structure and function of visual cortex simple cells is elaborated.
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