视觉空间的排斥效应。

Q2 Medicine
Eckart Zimmermann
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引用次数: 0

摘要

长时间暴露于感官刺激会引起知觉适应的后效。传统上,后遗症被认为是改变刺激特征的外观,如对比度、颜色或形状。然而,物体空间位置的变化也被观察到遵循适应。在这里,我证明了不同的适配器刺激产生的视觉适应产生双向空间排斥。观察者必须判断在适应区域中呈现的探测点对之间的距离,并将它们与未受适应影响的区域中呈现的参考点对进行比较。如果探测点对出现在适应区域内,观察者会低估距离。然而,如果点对横跨适应区域,则距离被认为更大,距离扩展比压缩更强。双向空间排斥被发现具有类似的大小和密度适配器。用鼠标指向的定位估计表明,适应也影响绝对位置判断。双向空间斥力最有可能是由适配器刺激线产生的,因为用作适配器的单根棒足以引起空间斥力。外周刺激的空间斥力更强。这一发现解释了为什么距离膨胀强于距离压缩。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Repulsive Aftereffects of Visual Space.

Prolonged exposure to a sensory stimulus induces perceptual adaptation aftereffects. Traditionally, aftereffects are known to change the appearance of stimulus features, like contrast, color, or shape. However, shifts in the spatial position of objects have also been observed to follow adaptation. Here, I demonstrate that visual adaptation produced by different adapter stimuli generates a bi-directional spatial repulsion. Observers had to judge the distance between a probe dot pair presented in the adapted region and compare them to a reference dot pair presented in a region not affected by adaptation. If the probe dot pair was present inside the adapted area, observers underestimated the distance. If, however, the dot pair straddled the adapted area, the distance was perceived as larger with a stronger distance expansion than compression. Bi-directional spatial repulsion was found with a similar magnitude for size and density adapters. Localization estimates with mouse pointing revealed that adaptation also affected absolute position judgments. Bi-directional spatial repulsion is most likely produced by the lines of adapter stimuli since single bars used as adapters were sufficient to induce spatial repulsion. Spatial repulsion was stronger for stimuli presented in the periphery. This finding explains why distance expansion is stronger than distance compression.

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来源期刊
Vision (Switzerland)
Vision (Switzerland) Health Professions-Optometry
CiteScore
2.30
自引率
0.00%
发文量
62
审稿时长
11 weeks
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