Abstract
Temporal integration is a process by which two serially presented visual stimuli are mentally integrated to form a composite representation. In the present research, we explored how spatial selective attention is used during the delay separating stimuli, in order to determine the contents of spatial working memory in this task. A two-task situation was created. On the primary task, two dot arrays were serially presented within a grid, leaving one space empty, which subjects identified. On the secondary task, instead of the second array, a discrimination probe was presented. Integration accuracy increased through delays of 1,500 msec, revealing an estimate of the time required to form an optimal memory trace for integration. Once the memory trace was formed (but not before), response time to the probe was faster if it was presented in a location previously occupied by a dot from Array 1. This indicates that during the delay separating the arrays, the subjects assigned spatial attention to the locations occupied by the first array and actively maintained the leading array in working memory. Implications for theories of visual processing and memory are discussed.
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Support for this research was provided by a National Science Foundation Graduate Research Fellowship to J.R.B., National Science Foundation Grant SBR 96-15988 to D.E.I., and a University of Illinois Institutional Research Board Grant to R.F.W.
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Brockmole, J.R., Irwin, D.E. & Wang, R.F. The locus of spatial attention during the temporal integration of visual memories and visual percepts. Psychonomic Bulletin & Review 10, 510–515 (2003). https://doi.org/10.3758/BF03196514
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DOI: https://doi.org/10.3758/BF03196514