截击动作的变异性来源。

Sources of variability in interceptive movements.

作者信息

Brenner Eli, Smeets Jeroen B J

机构信息

Faculty of Human Movement Sciences, Vrije Universiteit, Van der Boechorststraat 9, 1081 BT Amsterdam, The Netherlands.

出版信息

Exp Brain Res. 2009 May;195(1):117-33. doi: 10.1007/s00221-009-1757-x. Epub 2009 Mar 13.

DOI:10.1007/s00221-009-1757-x

PMID:19283369

Abstract

In order to successfully intercept a moving target one must be at the right place at the right time. But simply being there is seldom enough. One usually needs to make contact in a certain manner, for instance to hit the target in a certain direction. How this is best achieved depends on the exact task, but to get an idea of what factors may limit performance we asked people to hit a moving virtual disk through a virtual goal, and analysed the spatial and temporal variability in the way in which they did so. We estimated that for our task the standard deviations in timing and spatial accuracy are about 20 ms and 5 mm. Additional variability arises from individual movements being planned slightly differently and being adjusted during execution. We argue that the way that our subjects moved was precisely tailored to the task demands, and that the movement accuracy is not only limited by the muscles and their activation, but also-and probably even mainly-by the resolution of visual perception.

摘要

为了成功拦截一个移动目标，必须在正确的时间到达正确的地点。但仅仅身处那里往往是不够的。通常还需要以某种方式进行接触，例如朝着某个方向击中目标。如何最好地实现这一点取决于具体任务，但为了了解哪些因素可能限制表现，我们让人们通过一个虚拟目标击中一个移动的虚拟圆盘，并分析了他们完成任务的方式在空间和时间上的变异性。我们估计，对于我们的任务，时间和空间精度的标准差分别约为20毫秒和5毫米。额外的变异性源于个体运动的规划略有不同以及在执行过程中的调整。我们认为，我们的受试者的运动方式是精确地根据任务需求量身定制的，而且运动精度不仅受到肌肉及其激活的限制，还可能主要受到视觉感知分辨率的限制。

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截击动作的变异性来源。

Sources of variability in interceptive movements.

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