Feature-invariant processing of spatial segregation based on temporal asynchrony.

IF 2 4区 心理学 Q2 OPHTHALMOLOGY Journal of Vision Pub Date : 2024-05-01 DOI:10.1167/jov.24.5.15
Yen-Ju Chen, Zitang Sun, Shin'ya Nishida
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Abstract

Temporal asynchrony is a cue for the perceptual segregation of spatial regions. Past research found attribute invariance of this phenomenon such that asynchrony induces perceptual segmentation regardless of the changing attribute type, and it does so even when asynchrony occurs between different attributes. To test the generality of this finding and obtain insights into the underlying computational mechanism, we compared the segmentation performance for changes in luminance, color, motion direction, and their combinations. Our task was to detect the target quadrant in which a periodic alternation in attribute was phase-delayed compared to the remaining quadrants. When stimulus elements made a square-wave attribute change, target detection was not clearly attribute invariant, being more difficult for motion direction change than for luminance or color changes and nearly impossible for the combination of motion direction and luminance or color. We suspect that waveform mismatch might cause anomalous behavior of motion direction since a square-wave change in motion direction is a triangular-wave change in the spatial phase (i.e., a second-order change in the direction of the spatial phase change). In agreement with this idea, we found that the segregation performance was strongly affected by the waveform type (square wave, triangular wave, or their combination), and when this factor was controlled, the performance was nearly, though not perfectly, invariant against attribute type. The results were discussed with a model in which different visual attributes share a common asynchrony-based segmentation mechanism.

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基于时间不同步的空间隔离特征不变处理。
时间不同步是空间区域感知分离的线索。过去的研究发现,这种现象具有属性不变性,即无论属性类型如何变化,异步都会引起知觉分割,即使异步发生在不同属性之间也是如此。为了检验这一发现的普遍性并深入了解其背后的计算机制,我们比较了亮度、颜色、运动方向及其组合发生变化时的分割性能。我们的任务是检测与其余象限相比属性周期性交替相位延迟的目标象限。当刺激元素发生方波属性变化时,目标检测并不明显具有属性不变性,运动方向变化比亮度或颜色变化更难检测到目标,而运动方向与亮度或颜色的组合则几乎不可能检测到目标。我们怀疑波形不匹配可能会导致运动方向的异常行为,因为运动方向的方波变化是空间相位的三角波变化(即空间相位变化方向的二阶变化)。与这一想法一致,我们发现分离性能受波形类型(方波、三角波或它们的组合)的影响很大,而当这一因素受到控制时,分离性能几乎与属性类型无关,尽管并非完全不变。这些结果与一个模型进行了讨论,在该模型中,不同的视觉属性共享一种基于异步的共同分割机制。
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来源期刊
Journal of Vision
Journal of Vision 医学-眼科学
CiteScore
2.90
自引率
5.60%
发文量
218
审稿时长
3-6 weeks
期刊介绍: Exploring all aspects of biological visual function, including spatial vision, perception, low vision, color vision and more, spanning the fields of neuroscience, psychology and psychophysics.
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