选择和跟踪多个移动物体时个体差异的神经测量方法。
Neural measures of individual differences in selecting and tracking multiple moving objects.
作者信息
Drew Trafton, Vogel Edward K
机构信息
Psychology Department, University of Oregon, Eugene, Oregon 97403-1227, USA.
出版信息
J Neurosci. 2008 Apr 16;28(16):4183-91. doi: 10.1523/JNEUROSCI.0556-08.2008.
Abstract
Attention can be divided so that multiple objects can be tracked simultaneously as they move among distractors. Although attentional tracking is known to be highly limited, such that most individuals can track only approximately four objects simultaneously, the neurophysiological mechanisms that underlie this capacity limitation have not been established. Here, we provide electrophysiological measures in humans of the initial selection and sustained attention processes that facilitate attentional tracking. Each measure was modulated by the number of objects the subject was tracking and was highly sensitive to each individual's specific tracking capacity. Consequently, these measures provide strong neurophysiological predictors of an individual's attentional tracking capacity. Moreover, by manipulating the difficulty of these two phases of the task, we observe that the limiting factor underlying tracking capacity can flexibly shift between these two attentional mechanisms depending on the requirements of the task.
摘要
注意力可以被分配,以便在多个干扰物中移动的多个物体能够同时被追踪。尽管已知注意力追踪的能力非常有限,以至于大多数人只能同时追踪大约四个物体,但导致这种能力限制的神经生理机制尚未明确。在此,我们提供了人类在促进注意力追踪的初始选择和持续注意力过程方面的电生理测量方法。每种测量方法都受到受试者正在追踪的物体数量的调节,并且对每个个体的特定追踪能力高度敏感。因此,这些测量方法为个体的注意力追踪能力提供了强有力的神经生理预测指标。此外,通过操纵任务这两个阶段的难度,我们观察到,根据任务要求,追踪能力的限制因素可以在这两种注意力机制之间灵活转换。
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