Training improves the capacity of visual working memory when it is adaptive, individualized, and targeted.

Eunsam Shin,Sang-Ah Yoo,Hunjae Lee,Sang Chul Chong,Suliann Ben Hamed

doi:10.1371/journal.pone.0121702

Eunsam Shin, Sang-Ah Yoo + Show 3 more

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https://doi.org/10.1371/journal.pone.0121702

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Journal: PloS one	Publication Date: Apr 2, 2015
Citations: 10	License type: CC BY 4.0

Affiliation: Yonsei University

Abstract

The current study investigated whether training improves the capacity of visual working memory using individualized adaptive training methods. Two groups of participants were trained for two targeted processes, filtering and consolidation. Before and after the training, the participants, including those with no training, performed a lateralized change detection task in which one side of the visual display had to be selected and the other side ignored. Across ten-day training sessions, the participants performed two modified versions of the lateralized change detection task. The number of distractors and duration of the consolidation period were adjusted individually to increase the task difficulty of the filtering and consolidation training, respectively. Results showed that the degree of improvement shown during the training was positively correlated with the increase in memory capacity, and training-induced benefits were most evident for larger set sizes in the filtering training group. These results suggest that visual working memory training is effective, especially when it is adaptive, individualized, and targeted.

Highlights

We live in a cluttered world which is richly populated with objects and ongoing events
Training effects were assessed by estimating Visual working memory (VWM) capacity in each set size for each participant in the pre- and posttest sessions, following a formula developed by Pashler ([18], see [19]): memory capacity = set size x/(1—false alarm rate)
We reported that the degree of increase in VWM capacity was different between the two training groups

Summary

Introduction

We live in a cluttered world which is richly populated with objects and ongoing events. Visual working memory (VWM) enables us to maintain the continuity of our visual experience by linking past information with the current flow of target information, and is essential for performing various visual tasks in this cluttered environment. Despite such importance, the visual system can retain only a small number of items in VWM [1, 2]. The visual system can retain only a small number of items in VWM [1, 2] This has led researchers to find ways to increase its capacity, typically through training. More recent studies have begun to examine the impact of training [6,7,8] or visual expertise [8,9,10] on the PLOS ONE | DOI:10.1371/journal.pone.0121702 April 2, 2015

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