运动追踪调节视觉工作记忆的容量分配。

Motion tracking modulates capacity allocation of visual working memory.

作者信息

Song Joo-Hyun, Jiang Yuhong V

机构信息

Harvard University, Cambridge, Massachusetts, USA.

出版信息

Psychon Bull Rev. 2006 Dec;13(6):1011-5. doi: 10.3758/bf03213917.

DOI:10.3758/bf03213917

PMID:17484427

Abstract

Previous studies on visual working memory (VWM) have primarily investigated memory for an array presented for a single moment. Here, we examined VWM for two arrays separated by a 1,100-msec interval. We focused on the allocation of VWM capacity to the two arrays as a function of dynamic events inserted between them. During the interval, irrelevant dots moved to form three types of motion: (1) coherent (apparent) motion that connected Arrays 1 and 2, (2) jumpy motion, or (3) coherent motion with two disconnected segments. Results showed that VWM for Array 2's locations was better than for Array 1's, especially when the arrays were connected by coherent motion. We suggest that coherent motion between two temporally disparate arrays connects the arrays into a single visual event. VWM is then biased toward remembering the more recent state of the event.

摘要

以往关于视觉工作记忆（VWM）的研究主要考察对单个瞬间呈现的阵列的记忆。在此，我们研究了间隔1100毫秒的两个阵列的视觉工作记忆。我们关注视觉工作记忆容量在两个阵列间的分配情况，该分配是插入其间的动态事件的函数。在间隔期间，无关的点移动形成三种运动类型：（1）连接阵列1和阵列2的连贯（明显）运动，（2）跳跃运动，或（3）有两个不相连片段的连贯运动。结果表明，对阵列2位置的视觉工作记忆比对阵列1位置的更好，尤其是当阵列由连贯运动连接时。我们认为，两个时间上不同的阵列之间的连贯运动将这些阵列连接成一个单一的视觉事件。然后，视觉工作记忆倾向于记住该事件的较新状态。

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运动追踪调节视觉工作记忆的容量分配。

Motion tracking modulates capacity allocation of visual working memory.

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