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Publication Details
 
Output Category: C1
Strategic Research Area: None
TISI Citations: PlumX StatisticsPlumX Statistics
Scopus Citations:
Journal Impact: 2.25
All Authors: Udale, R, Farrell, S, Kent, C Number:
UWA Authors: Farrell, S. Number: 1
Title: No evidence for binding of items to task-irrelevant backgrounds in visual working memory
Journal: MEMORY & COGNITION   
ISBN/ISSN 0090-502X
Year: 2017
Pages: 1144–1159
Volume: 45
Issue: 7
Full Reference (Harvard Style): Udale, R., Farrell, S., Kent, C. 2017, 'No evidence for binding of items to task-irrelevant backgrounds in visual working memory', MEMORY & COGNITION, 45, 7, pp. 1144–1159.
Abstract:

When representing visual features such as color and shape in visual working memory (VWM), participants also represent the locations of those features as a spatial configuration of the locations of those features in the display. In everyday life, we encounter objects against some background, yet it is unclear whether the configural representation in memory obligatorily constitutes the entire display, including that (often task-irrelevant) background information. In three experiments, participants completed a change detection task on color and shape; the memoranda were presented in front of uniform gray backgrounds, a textured background (Exp. 1), or a background containing location placeholders (Exps. 2 and 3). When whole-display probes were presented, changes to the objects’ locations or feature bindings impacted memory performance—implying that the spatial configuration of the probes influenced participants’ change decisions. Furthermore, when only a single item was probed, the effect of changing its location or feature bindings was either diminished or completely extinguished, implying that single probes do not necessarily elicit the entire spatial configuration. Critically, when task-irrelevant backgrounds were also presented that may have provided a spatial configuration for the single probes, the effect of location or bindings was not moderated. These findings suggest that although the spatial configuration of a display guides VWM-based recognition, this information does not necessarily always influence the decision process during change detection.