In Vision It Is Groups, Rather Than Maps, That Determine How We Perceive the World.

Q2 Medicine Vision (Switzerland) Pub Date : 2022-08-19 DOI:10.3390/vision6030051
Philip T Quinlan, Keith Allen, Dale J Cohen
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Abstract

This paper presents the results of a study that used a speeded counting task to adjudicate between two competing theories of how perceptual representations of visual objects are derived. Boolean map (BM) theory assumes that there are strict limits on conscious awareness, such that we only have serial access to features on the same dimension (e.g., red and green). This theory contrasts with views that emphasize the early grouping of features, and which assume that feature processing is interactive and underpins figure/ground segregation as a necessary precursor to object perception. To test between these theories, we report performance in a speeded counting task in which participants were asked to judge which of two shapes was more prevalent. Displays contained squares and circles that appeared in either of two colors, with color and shape distinctions either perfectly correlated (i.e., compatible) or not (i.e., incompatible). BM theory predicts no influence of the relative coincidence of color and shape on the identification of the more prevalent shape. In contrast, grouping theory predicts that performance will be better when the color/shape distinction is compatible than when it is incompatible. Our data strongly support the grouping theory predictions. We conclude that the primary constraints on how visual objects are accessed are the number and kind of groupings that are recovered, not the number of feature maps consulted.

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在视觉中,是群体,而不是地图,决定了我们如何感知世界。
本文介绍了一项研究的结果,该研究使用快速计数任务来判断视觉对象的感知表征是如何衍生的两种相互竞争的理论。布尔映射(BM)理论假设意识意识存在严格的限制,例如我们只能连续访问同一维度上的特征(例如,红色和绿色)。这一理论与强调早期特征分组的观点形成了对比,后者认为特征处理是互动的,并将图像/地面分离作为物体感知的必要前提。为了测试这些理论,我们报告了参与者在快速计数任务中的表现,在这个任务中,参与者被要求判断两种形状中哪一种更普遍。显示器上有两种颜色的正方形和圆形,颜色和形状的区别要么完全相关(即相容),要么不相容(即不相容)。BM理论预测颜色和形状的相对一致性对识别更普遍的形状没有影响。相比之下,分组理论预测,当颜色/形状区分相容时,表现会比不相容时更好。我们的数据有力地支持了分组理论的预测。我们得出的结论是,如何访问可视对象的主要约束是恢复的分组的数量和类型,而不是咨询的特征映射的数量。
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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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