Continuous psychophysics shows millisecond-scale visual processing delays are faithfully preserved in movement dynamics.

IF 2 4区 心理学 Q2 OPHTHALMOLOGY Journal of Vision Pub Date : 2024-05-01 DOI:10.1167/jov.24.5.4
Johannes Burge, Lawrence K Cormack
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Abstract

Image differences between the eyes can cause interocular discrepancies in the speed of visual processing. Millisecond-scale differences in visual processing speed can cause dramatic misperceptions of the depth and three-dimensional direction of moving objects. Here, we develop a monocular and binocular continuous target-tracking psychophysics paradigm that can quantify such tiny differences in visual processing speed. Human observers continuously tracked a target undergoing Brownian motion with a range of luminance levels in each eye. Suitable analyses recover the time course of the visuomotor response in each condition, the dependence of visual processing speed on luminance level, and the temporal evolution of processing differences between the eyes. Importantly, using a direct within-observer comparison, we show that continuous target-tracking and traditional forced-choice psychophysical methods provide estimates of interocular delays that agree on average to within a fraction of a millisecond. Thus, visual processing delays are preserved in the movement dynamics of the hand. Finally, we show analytically, and partially confirm experimentally, that differences between the temporal impulse response functions in the two eyes predict how lateral target motion causes misperceptions of motion in depth and associated tracking responses. Because continuous target tracking can accurately recover millisecond-scale differences in visual processing speed and has multiple advantages over traditional psychophysics, it should facilitate the study of temporal processing in the future.

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连续心理物理学显示,运动动态中忠实地保留了毫秒级的视觉处理延迟。
双眼之间的图像差异会导致视觉处理速度的眼间差异。视觉处理速度的毫秒级差异会导致对运动物体的深度和三维方向产生极大的误解。在这里,我们开发了一种单眼和双眼连续目标跟踪心理物理学范例,可以量化视觉处理速度的这种微小差异。人类观察者每只眼睛在不同亮度水平下连续跟踪一个布朗运动目标。适当的分析恢复了每种条件下视觉运动反应的时间过程、视觉处理速度对亮度水平的依赖性以及双眼之间处理差异的时间演变。重要的是,通过直接在观察者内部进行比较,我们发现连续目标跟踪和传统的强迫选择心理物理方法提供的眼间延迟估计值平均只相差几毫秒。因此,手的运动动态中保留了视觉处理延迟。最后,我们通过分析表明并通过实验部分证实,两只眼睛的时间脉冲响应函数之间的差异可以预测横向目标运动如何导致对深度运动和相关跟踪反应的错误感知。由于连续目标跟踪能准确恢复视觉处理速度的毫秒级差异,并且与传统心理物理学相比具有多种优势,因此它将促进未来对时间处理的研究。
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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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