The effect of memory load on object reconstruction: Insights from an online mouse-tracking task

The effect of memory load on object reconstruction: Insights from an online mouse-tracking task

Why can’t we remember everything that we experience? Previous work in the domain of object memory has suggested that our ability to resolve interference between relevant and irrelevant object features may limit how much we can remember at any given moment. Here, we developed an online mouse-tracking...

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Bibliographic Details
Published in:Attention, perception & psychophysics Vol. 85; no. 5; pp. 1612 - 1630
Main Authors: Li, Aedan Y., Yuan, James Y., Pun, Carson, Barense, Morgan D.
Format: Journal Article
Language:English
Published: New York Springer US 01-07-2023
Springer Nature B.V
Subjects:
Aging (Individuals)
Alzheimer's disease
Behavioral Science and Psychology
Cognitive Psychology
Evidence
Eye movements
Feedback (Response)
Humans
Literary Devices
Memory
Memory, Short-Term - physiology
Mental Recall - physiology
Older people
Psychology
Resistance (Psychology)
Short Term Memory
Visual Perception - physiology
Mouse tracking
Object-to-location binding
Online executable files
Simultaneous reconstruction task
Interference
Virtual conference calls
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Summary:Why can’t we remember everything that we experience? Previous work in the domain of object memory has suggested that our ability to resolve interference between relevant and irrelevant object features may limit how much we can remember at any given moment. Here, we developed an online mouse-tracking task to study how memory load influences object reconstruction, testing participants synchronously over virtual conference calls. We first tested up to 18 participants concurrently, replicating memory findings from a condition where participants were tested individually. Next, we examined how memory load influenced mouse trajectories as participants reconstructed target objects. We found interference between the contents of working memory and what was perceived during object reconstruction, an effect that interacted with visual similarity and memory load. Furthermore, we found interference from previously studied but currently irrelevant objects, providing evidence of object-to-location binding errors. At the greatest memory load, participants were nearly three times more likely to move their mouse cursor over previously studied nontarget objects, an effect observed primarily during object reconstruction rather than in the period before the final response. As evidence of the dynamic interplay between working memory and perception, these results show that object reconstruction behavior may be altered by (i) interference between what is represented in mind and what is currently being viewed, and (ii) interference from previously studied but currently irrelevant information. Finally, we discuss how mouse tracking can provide a rich characterization of participant behavior at millisecond temporal resolution, enormously increasing power in cognitive psychology experiments.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
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ISSN:1943-3921
1943-393X
DOI:10.3758/s13414-022-02650-9