从盲点边缘进行的知觉填充。

Perceptual filling-in from the edge of the blind spot.

作者信息

Spillmann Lothar, Otte Tobias, Hamburger Kai, Magnussen Svein

机构信息

Brain Research Unit, Department of Neurology, University Hospital, Breisacher Strasse 64, D-79106 Freiburg, Germany.

出版信息

Vision Res. 2006 Nov;46(25):4252-7. doi: 10.1016/j.visres.2006.08.033. Epub 2006 Oct 10.

DOI:10.1016/j.visres.2006.08.033

PMID:17034833

Abstract

Looking at the world with one eye, we do not notice a scotoma in the receptor-free area of the visual field where the optic nerve leaves the eye. Rather we perceive the brightness, color, and texture of the adjacent area as if they were actually there. The mechanisms underlying this kind of perceptual filling-in remain controversial. To better understand these processes, we determined the minimum region around the blind spot that needs to be stimulated for filling-in by carefully mapping the blind spot and presenting individually fitted stimulus frames of different width around it. Uniform filling-in was observed with frame widths as narrow as 0.05 degrees visual angle for color and 0.2 degrees for texture. Filling-in was incomplete, when the frame was no longer contiguous with the blind spot border due to an eye movement. These results are consistent with the idea that perceptual filling-in of the blind spot depends on local processes generated at the physiological edge of the cortical representation.

摘要

用一只眼睛看世界时，我们不会注意到视野中视神经离开眼睛的无感受器区域存在盲点。相反，我们会将相邻区域的亮度、颜色和纹理视为实际存在的。这种感知填充的潜在机制仍存在争议。为了更好地理解这些过程，我们通过仔细绘制盲点并在其周围呈现不同宽度的单独拟合刺激框架，确定了盲点周围需要刺激以进行填充的最小区域。对于颜色，当框架宽度窄至0.05度视角时观察到均匀填充，对于纹理则为0.2度。由于眼球运动，当框架不再与盲点边界相邻时，填充是不完整的。这些结果与盲点的感知填充取决于在皮质表征的生理边缘产生的局部过程这一观点一致。

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