Visual working memory simultaneously guides facilitation and inhibition during visual search

Dube, Blaire; Basciano, April; Emrich, Stephen M.; Al-Aidroos, Naseem

doi:10.3758/s13414-016-1105-8

Cited by 19 publications

(11 citation statements)

References 63 publications

(92 reference statements)

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“…This is not to say that advance suppression cannot occur. First, there is ample behavioral and neuroscientific evidence for the anticipatory suppression of perceptual processing at an expected distractor location (Dube, Basciano, Emrich, & Al-Aidroos, 2016;Al-Aidroos, Emrich, Ferber, & Pratt, 2012;Händel et al, 2011;Munneke, Van der Stigchel, & Theeuwes, 2008;Rihs et al, 2007;Ruff & Driver, 2006;Serences, Yantis, Culberson, & Awh, 2004), but this does not demonstrate the feature-based, distractorspecific advance inhibition that we were after here. A previous report that claimed such advance feature-based inhibition (Arita et al, 2012) may have contaminated the to-be-ignored feature with a consistent spatial location (Beck & Hollingworth, 2015;Becker et al, 2015).…”

Section: No Evidence For An Advance Inhibitory Templatementioning

confidence: 57%

Oscillatory Mechanisms of Preparing for Visual Distraction

Vries

Savran

Driel

et al. 2019

Journal of Cognitive Neuroscience

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Evidence shows that observers preactivate a target representation in preparation of a visual selection task. In this study, we addressed the question if and how preparing to ignore an anticipated distractor differs from preparing for an anticipated target. We measured EEG while participants memorized a laterally presented color, which was cued to be either a target or a distractor in two subsequent visual search tasks. Decoding the location of items in the search display from EOG channels revealed that, initially, the anticipated distractor attracted attention and could only be ignored later during the trial. This suggests that distractors could not be suppressed in advance but were represented in an active, attention-guiding format. Consistent with this, lateralized posterior alpha power did not dissociate between target and distractor templates during the delay periods, suggesting similar encoding and maintenance. However, distractor preparation did lead to relatively enhanced nonlateralized posterior alpha power, which appeared to gate sensory processing at search display onset to prevent attentional capture in general. Finally, anticipating distractors also led to enhanced midfrontal theta power during the delay period, a signal that was predictive of how strongly both target and distractor were represented in the search display. Together, our results speak against a distractor-specific advance inhibitory template, thus contrary to the preactivation of specific target templates. Rather, we demonstrate a general selection suppression mechanism, which serves to prevent initial involuntary capture by anticipated distracting input.

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Section: No Evidence For An Advance Inhibitory Templatementioning

confidence: 57%

Oscillatory Mechanisms of Preparing for Visual Distraction

Vries

Savran

Driel

et al. 2019

Journal of Cognitive Neuroscience

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“…Again, this work could be interpreted as suggesting that participants were able to use the preview frame to prepare to suppress processing of the featured distractors. Indeed, when the number of preview items is below working memory capacity there appears to be little impact of the presence of a distractor [51]. However, according to the predictive coding framework outlined above, processing the distractor stimuli prior to the target presentation removes the need for further processing during the search task.…”

Section: Behavioural Evidence For Preparatory Distractor Inhibitionmentioning

confidence: 99%

Selective inhibition of distracting input

Noonan

Crittenden

Jensen

et al. 2018

Behavioural Brain Research

116

137

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We review a series of studies exploring distractor suppression. It is often assumed that preparatory distractor suppression is controlled via top-down mechanisms of attention akin to those that prepare brain areas for target enhancement. Here, we consider two alternative mechanisms: secondary inhibition and expectation suppression within a predictive coding framework. We draw on behavioural studies, evidence from neuroimaging and some animal studies. We conclude that there is very limited evidence for selective top-down control of preparatory inhibition. By contrast, we argue that distractor suppression often relies secondary inhibition of non-target items (relatively non-selective inhibition) and on statistical regularities of the environment, learned through direct experience.

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“…Whereas Olivers et al suggested that only one item in WM can be in the active status at a time, a recent study demonstrated that visual search can be biased by multiple items in WM, not just the active item (Hollingworth & Beck, 2016). Another study also challenged the one-active-item idea by showing that while one item in memory serves as the target template leading to attentional capture, other items in memory may guide the inhibition of distractors (i.e., Dube et al, 2016). However, the present findings are consistent with Olivers et al’s idea, by suggesting that the memorised items from the memory task are in the accessory status and cannot affect the stimulus processing time of visual search.…”

Section: Discussionmentioning

confidence: 99%

“…This visual working memory (VWM) load account may well explain the increase in overall RT when WM is occupied, but its basic assumption requires more empirical testing. To our knowledge, no study has ever shown a turning point near set size four in the RT × set size function in standard visual search (i.e., with items in the search array being presented all at once), although a turning point in the search efficiency at search set sizes close to the WM capacity has been reported by the preview search paradigm, in which part of the search items are previewed before all items are shown (Al-Aidroos, Emrich, Ferber, & Pratt, 2012; Dube, Basciano, Emrich, Al-Aidroos, 2016).…”

Section: Introductionmentioning

confidence: 99%

Visual working memory load does not affect the overall stimulus processing time in visual search

Xin

2019

Quarterly Journal of Experimental Psychology

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The dual-task paradigm is widely used in studying the interaction between visual search and working memory. A number of studies showed that holding items in working memory delays the overall response time (RT) in visual search, but it does not affect the efficiency of search (i.e., the slope of the RT × set size function). Why the memory load merely affects the overall RT? Some researchers proposed that this load-effect on overall RT may be caused by factors that only affect response selection processes, while others argued that it may reflect the effect of visual working memory load on visual search. This study investigated the two competing hypotheses by measuring the threshold stimulus exposure duration (TSED) for successfully fulfilling a search task. Experiment 1 replicated the large overall RT difference with the RT method but only found a small though reliable overall TSED difference with the TSED method. Experiment 2, with better controls, found no TSED difference by manipulating the visual working memory load. Experiment 3 showed that the TSED is not influenced by processes in the response selection stage. The present findings suggest that the overall stimulus processing time in visual search is not affected by visual working memory load and that the effect of memory load on overall RT is largely due to factors affecting response selection alone.

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Visual working memory simultaneously guides facilitation and inhibition during visual search

Cited by 19 publications

References 63 publications

Oscillatory Mechanisms of Preparing for Visual Distraction

Oscillatory Mechanisms of Preparing for Visual Distraction

Selective inhibition of distracting input

Visual working memory load does not affect the overall stimulus processing time in visual search

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