December 2023
Volume 23, Issue 15
Open Access
Optica Fall Vision Meeting Abstract  |   December 2023
Contributed Session II: Neural correlates of serial processing during divided attention across multipart objects
Author Affiliations
  • Dina V. Popovkina
    Department of Psychology, University of Washington
  • Kelly Chang
    Department of Psychology, University of Washington
  • Lucas M. Suarez
    Department of Psychology, University of Washington
  • John Palmer
    Department of Psychology, University of Washington
  • Cathleen M. Moore
    Department of Psychological and Brain Sciences, University of Iowa
  • Geoffrey M. Boynton
    Department of Psychology, University of Washington
Journal of Vision December 2023, Vol.23, 79. doi:https://doi.org/10.1167/jov.23.15.79
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      Dina V. Popovkina, Kelly Chang, Lucas M. Suarez, John Palmer, Cathleen M. Moore, Geoffrey M. Boynton; Contributed Session II: Neural correlates of serial processing during divided attention across multipart objects. Journal of Vision 2023;23(15):79. https://doi.org/10.1167/jov.23.15.79.

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      © ARVO (1962-2015); The Authors (2016-present)

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Abstract

Judgments of multiple simultaneously presented stimuli produce a variety of divided attention effects. For example, participants can detect colors in two locations as well as in one, but can recognize only one masked word at a time (White, Palmer, & Boynton, Psych Science 2018). Here, we ask whether judging objects with interchangeable parts, similar to letters in words, also produces performance deficits consistent with serial processing, and which brain areas subserve this process. In a probe recognition task, participants discriminated abstract objects made of Duplo™ parts. On each trial, two objects were presented, with either one or both objects cued as relevant (single- and dual-task conditions, respectively). The distractor probes were made of the same parts in a different order. The difference in performance between the single- and dual-task conditions was 17±1% (n=13), consistent with the prediction of a serial model and rejecting the fixed-capacity parallel model. This result suggests that there is a visual brain area where information can be processed about only one object at a time. Currently, we are using fMRI to examine activity in object-selective regions of the human lateral occipital cortex. To seek evidence of serial processing, we are assessing how stimulus-related modulation is mediated by selective attention; the area of interest should show a modulation for only the attended stimulus location.

Footnotes
 Funding: Funding: This work was supported in part by grants from the National Eye Institute (F32 EY030320 to D.V.P. and EY12925 to G.M.B. and J.P.).
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