Journal article
The power law of visual working memory characterizes attention engagement
PL Smith, EA Corbett, SD Lilburn, S Kyllingsbaek
Psychological Review | AMER PSYCHOLOGICAL ASSOC | Published : 2018
DOI: 10.1037/rev0000098
Abstract
The quality or precision of stimulus representations in visual working memory can be characterized by a power law, which states that precision decreases as a power of the number of items in memory, with an exponent whose magnitude typically varies in the range 0.5 to 0.75. The authors show that the magnitude of the exponent is an index of the attentional demands of memory formation. They report 5 visual working memory experiments with tasks using noisy, backward-masked stimuli that varied in their attentional demands and show that the magnitude of the exponent increases systematically with the attentional demands of the task. Recall accuracy in the experiments was well described by an attent..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
This research was supported by Australian Research Council Discovery Grant DP140102970 to Philip Smith, an Australian Postgraduate Award to Simon Lilburn, and a Danish Agency for Independent Research Sapere Aude award to Soren Kyllingsbaek. Conference papers describing this work were presented at the Australian Mathematical Psychology Conference, Brisbane, Australia in February 2017 and the Society for Mathematical Psychology Annual Meeting, University of Warwick, UK, in July 2017.