The kinetic Orbison illusion.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-09-06 eCollection Date: 2023-09-01 DOI:10.1177/20416695231196979
Hikari Matsunaga, Hiroyuki Ito, Tama Kanematsu
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Abstract

In the typical Orbison illusion, the sides of a square placed on concentric circles appear to be bending toward the center of the circles. We report a motion version of the Orbison illusion (namely, the kinetic Orbison illusion). When a dot moves along a square trajectory against a background of concentric circles, the sides of the trajectory appear to bend toward the center and the corners appear to be sharpened. In the present study, observers adjusted the shape of a comparison stimulus to the shape of the perceived trajectory by bending the sides. The amount of illusion was operationally defined as the largest discrepancy between the square and adjusted shape in the comparison stimulus. It was found that the illusory bending was more than twice the static Orbison illusion and reached a maximum of 7.3% of the length of one side. Experiments including a comparison between fixation and pursuit conditions revealed that the main cause of the kinetic illusion was not motion streaks of the dot crossing background circles. We propose an alternative hypothesis based on induced motion generated by background circle motion, the direction of which is misperceived owing to the aperture problem.

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动感的野牛幻觉。
在典型的Orbison错觉中,放置在同心圆上的正方形的侧面似乎向圆的中心弯曲。我们报道了野牛错觉的运动版本(即运动野牛错觉)。当一个点在同心圆的背景下沿着正方形轨迹移动时,轨迹的边看起来向中心弯曲,角看起来更尖锐。在本研究中,观察者通过弯曲侧面,将比较刺激的形状调整为感知轨迹的形状。错觉的量在操作上被定义为比较刺激中正方形和调整后的形状之间的最大差异。研究发现,虚幻的弯曲是静态Orbison错觉的两倍多,最大达到一侧长度的7.3%。包括注视和追逐条件之间的比较在内的实验表明,运动错觉的主要原因不是穿过背景圆的点的运动条纹。我们提出了一种基于背景圆运动产生的诱导运动的替代假设,由于孔径问题,背景圆运动的方向被误解了。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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