目标获取任务中视运动对恒定和变化延迟的适应。

IF 2.3 4区 心理学 Q2 OPHTHALMOLOGY
Sam Beech, Danaë Stanton Fraser, Iain D Gilchrist
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引用次数: 0

摘要

在视觉引导的运动任务中,视觉反馈延迟会破坏视觉运动控制并损害表现。当产生补偿视觉运动更新以适应延迟和恢复控制时,适应性发生。在去除延迟之后,观察到后效,其中视觉运动更新的保留相对于暴露前基线损害了暴露后的表现。虽然以前已经探讨了适应对持续延迟的反应,但没有研究连续变化的延迟如何影响适应。在这个实验中,参与者完成了一个基于鼠标的目标获取任务,鼠标和光标移动之间有恒定或不同的延迟。在第一次接触延迟时,完成时间很大,并且两种延迟条件经常超过目标。通过重复曝光,运动的精度得到了提高,从而缩短了完成时间,减少了过冲。恒定和变化的延迟条件在整个暴露阶段显示出相似的变化速率,表明相似的适应速率。在去除延迟后,两种延迟条件表现出相似的曝光后效应,因为它们系统地低于目标,并且相对于曝光前基线显示出超调的减少。尽管延迟可变性在预期和实际光标位置之间施加了不稳定的错误信号,但这并没有破坏自适应。这些结果表明,变化延迟条件下的参与者适应了平均延迟,并且偏离该值的波动不会破坏视觉运动更新的生成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Visuomotor adaptation to constant and varying delays in a target acquisition task.

Visuomotor adaptation to constant and varying delays in a target acquisition task.

Visuomotor adaptation to constant and varying delays in a target acquisition task.

Visuomotor adaptation to constant and varying delays in a target acquisition task.

In visually guided movement tasks, visual feedback delays disrupt visuomotor control and impair performance. Adaptation then occurs as compensatory visuomotor updates are generated to accommodate the delay and recover control. Following the removal of the delay, an after-effect is observed, where the retention of this visuomotor update impairs post-exposure performance relative to the pre-exposure baseline. Although adaptation has previously been explored in response to constant delays, there has been no investigation into how continuously varying delays affect adaptation. In this experiment, participants completed a mouse-based target acquisition task with either a constant or varying delay between the mouse and cursor movements. At first exposure to the delays, completion times were large, and both delay conditions frequently overshot the target. With repeated exposure, the precision of the movements improved, resulting in lower completion times and fewer overshoots. The constant and varying delay conditions showed similar rates of change throughout the exposure phase, suggesting similar adaptation rates. Following the removal of the delay, the two delay conditions demonstrated similar post-exposure after-effects, as they systematically undershot the target and showed a decrease in overshooting relative to the pre-exposure baseline. Despite delay variability imposing an unstable error signal between the expected and actual cursor locations, this did not disrupt adaptation. These results suggest that the participants in the varying delay condition adapted to the mean delay and that the fluctuations away from this value did not disrupt the generation of the visuomotor updates.

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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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