The role of prediction and visual tracking strategies during manual interception: An exploration of individual differences.

IF 2 4区 心理学 Q2 OPHTHALMOLOGY Journal of Vision Pub Date : 2024-06-03 DOI:10.1167/jov.24.6.4
Tom Arthur, Samuel Vine, Mark Wilson, David Harris
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Abstract

The interception (or avoidance) of moving objects is a common component of various daily living tasks; however, it remains unclear whether precise alignment of foveal vision with a target is important for motor performance. Furthermore, there has also been little examination of individual differences in visual tracking strategy and the use of anticipatory gaze adjustments. We examined the importance of in-flight tracking and predictive visual behaviors using a virtual reality environment that required participants (n = 41) to intercept tennis balls projected from one of two possible locations. Here, we explored whether different tracking strategies spontaneously arose during the task, and which were most effective. Although indices of closer in-flight tracking (pursuit gain, tracking coherence, tracking lag, and saccades) were predictive of better interception performance, these relationships were rather weak. Anticipatory gaze shifts toward the correct release location of the ball provided no benefit for subsequent interception. Nonetheless, two interceptive strategies were evident: 1) early anticipation of the ball's onset location followed by attempts to closely track the ball in flight (i.e., predictive strategy); or 2) positioning gaze between possible onset locations and then using peripheral vision to locate the moving ball (i.e., a visual pivot strategy). Despite showing much poorer in-flight foveal tracking of the ball, participants adopting a visual pivot strategy performed slightly better in the task. Overall, these results indicate that precise alignment of the fovea with the target may not be critical for interception tasks, but that observers can adopt quite varied visual guidance approaches.

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人工拦截过程中预测和视觉跟踪策略的作用:个体差异探索
拦截(或躲避)移动物体是各种日常生活任务的常见组成部分;然而,眼窝视觉与目标的精确对准对于运动表现是否重要,目前仍不清楚。此外,对于视觉跟踪策略的个体差异和使用预期性注视调整的研究也很少。我们利用虚拟现实环境考察了飞行中跟踪和预测性视觉行为的重要性,该环境要求参与者(n = 41)拦截从两个可能位置之一投射过来的网球。在此,我们探讨了在任务过程中是否会自发产生不同的跟踪策略,以及哪种策略最有效。虽然飞行中更紧密追踪的指标(追踪增益、追踪一致性、追踪滞后和囊视)可预测更好的拦截成绩,但这些关系相当微弱。向球的正确释放位置的预期性注视转移对随后的拦截没有任何益处。然而,有两种拦截策略是显而易见的:1) 早期预测球的起始位置,然后尝试密切跟踪飞行中的球(即预测策略);或 2) 将视线定位在可能的起始位置之间,然后使用外围视觉来定位移动中的球(即视觉支点策略)。尽管采用视觉支点策略的受试者对球的飞行视线跟踪能力要差得多,但他们在任务中的表现却略胜一筹。总之,这些结果表明,在拦截任务中,眼窝与目标的精确对准可能并不重要,但观察者可以采用相当多样的视觉引导方法。
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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.
期刊最新文献
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