Eye movements reveal the contributions of early and late processes of enhancement and suppression to the guidance of visual search

In visual search attention can be directed towards items matching top-down goals, but this must compete with factors such as salience that can capture attention. However, under some circumstances it appears that attention can avoid known distractor features. Chang and Egeth (Psychological Science, 3...

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Published inAttention, perception & psychophysics Vol. 84; no. 6; pp. 1913 - 1924
Main Authors Hamblin-Frohman, Zachary, Chang, Seah, Egeth, Howard, Becker, Stefanie I.
Format Journal Article
LanguageEnglish
Published New York Springer US 01.08.2022
Springer Nature B.V
Subjects
Behavioral Science and Psychology
Bias
Cognitive Psychology
Eye movements
Inhibition
Memory
Psychology
Recall
Stimuli
Inhibition
Visual search
Enhancement
Suppression
Attention
Online AccessGet full text
ISSN1943-3921
1943-393X
1943-393X
DOI10.3758/s13414-022-02536-w

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Abstract In visual search attention can be directed towards items matching top-down goals, but this must compete with factors such as salience that can capture attention. However, under some circumstances it appears that attention can avoid known distractor features. Chang and Egeth (Psychological Science, 30 (12), 1724–1732, 2019) found that such inhibitory effects reflect a combination of distractor-feature suppression and target-feature enhancement. In the present study ( N = 48), we extend these findings by revealing that suppression and enhancement effects guide overt attention. On search trials (75% of trials) participants searched for a diamond shape among several other shapes. On half of the search trials all objects were the same colour (e.g., green) and on the other half of the search trials one of the non-target shapes appeared in a different colour (e.g., red). On interleaved probe trials (25% of trials), subjects were presented with four ovals. One of the ovals was in either the colour of the target or the colour of the distractor from the search trials. The other three ovals were on neutral colours. Critically, we found that attention was overtly captured by target colours and avoided distractor colours when they were viewed in a background of neutral colours. In addition, we provided a time course of attentional control. Within visual search tasks we observed inhibition aiding early attentional effects, indexed by the time it took gaze to first reach the target, as well as later decision-making processes indexed by the time for a decision to be made once the target as found.
AbstractList In visual search attention can be directed towards items matching top-down goals, but this must compete with factors such as salience that can capture attention. However, under some circumstances it appears that attention can avoid known distractor features. Chang and Egeth (Psychological Science, 30 (12), 1724-1732, 2019) found that such inhibitory effects reflect a combination of distractor-feature suppression and target-feature enhancement. In the present study (N = 48), we extend these findings by revealing that suppression and enhancement effects guide overt attention. On search trials (75% of trials) participants searched for a diamond shape among several other shapes. On half of the search trials all objects were the same colour (e.g., green) and on the other half of the search trials one of the non-target shapes appeared in a different colour (e.g., red). On interleaved probe trials (25% of trials), subjects were presented with four ovals. One of the ovals was in either the colour of the target or the colour of the distractor from the search trials. The other three ovals were on neutral colours. Critically, we found that attention was overtly captured by target colours and avoided distractor colours when they were viewed in a background of neutral colours. In addition, we provided a time course of attentional control. Within visual search tasks we observed inhibition aiding early attentional effects, indexed by the time it took gaze to first reach the target, as well as later decision-making processes indexed by the time for a decision to be made once the target as found.
In visual search attention can be directed towards items matching top-down goals, but this must compete with factors such as salience that can capture attention. However, under some circumstances it appears that attention can avoid known distractor features. Chang and Egeth (Psychological Science, 30 (12), 1724–1732, 2019) found that such inhibitory effects reflect a combination of distractor-feature suppression and target-feature enhancement. In the present study ( N = 48), we extend these findings by revealing that suppression and enhancement effects guide overt attention. On search trials (75% of trials) participants searched for a diamond shape among several other shapes. On half of the search trials all objects were the same colour (e.g., green) and on the other half of the search trials one of the non-target shapes appeared in a different colour (e.g., red). On interleaved probe trials (25% of trials), subjects were presented with four ovals. One of the ovals was in either the colour of the target or the colour of the distractor from the search trials. The other three ovals were on neutral colours. Critically, we found that attention was overtly captured by target colours and avoided distractor colours when they were viewed in a background of neutral colours. In addition, we provided a time course of attentional control. Within visual search tasks we observed inhibition aiding early attentional effects, indexed by the time it took gaze to first reach the target, as well as later decision-making processes indexed by the time for a decision to be made once the target as found.
In visual search attention can be directed towards items matching top-down goals, but this must compete with factors such as salience that can capture attention. However, under some circumstances it appears that attention can avoid known distractor features. Chang and Egeth (Psychological Science, 30 (12), 1724-1732, 2019) found that such inhibitory effects reflect a combination of distractor-feature suppression and target-feature enhancement. In the present study (N = 48), we extend these findings by revealing that suppression and enhancement effects guide overt attention. On search trials (75% of trials) participants searched for a diamond shape among several other shapes. On half of the search trials all objects were the same colour (e.g., green) and on the other half of the search trials one of the non-target shapes appeared in a different colour (e.g., red). On interleaved probe trials (25% of trials), subjects were presented with four ovals. One of the ovals was in either the colour of the target or the colour of the distractor from the search trials. The other three ovals were on neutral colours. Critically, we found that attention was overtly captured by target colours and avoided distractor colours when they were viewed in a background of neutral colours. In addition, we provided a time course of attentional control. Within visual search tasks we observed inhibition aiding early attentional effects, indexed by the time it took gaze to first reach the target, as well as later decision-making processes indexed by the time for a decision to be made once the target as found.In visual search attention can be directed towards items matching top-down goals, but this must compete with factors such as salience that can capture attention. However, under some circumstances it appears that attention can avoid known distractor features. Chang and Egeth (Psychological Science, 30 (12), 1724-1732, 2019) found that such inhibitory effects reflect a combination of distractor-feature suppression and target-feature enhancement. In the present study (N = 48), we extend these findings by revealing that suppression and enhancement effects guide overt attention. On search trials (75% of trials) participants searched for a diamond shape among several other shapes. On half of the search trials all objects were the same colour (e.g., green) and on the other half of the search trials one of the non-target shapes appeared in a different colour (e.g., red). On interleaved probe trials (25% of trials), subjects were presented with four ovals. One of the ovals was in either the colour of the target or the colour of the distractor from the search trials. The other three ovals were on neutral colours. Critically, we found that attention was overtly captured by target colours and avoided distractor colours when they were viewed in a background of neutral colours. In addition, we provided a time course of attentional control. Within visual search tasks we observed inhibition aiding early attentional effects, indexed by the time it took gaze to first reach the target, as well as later decision-making processes indexed by the time for a decision to be made once the target as found.
Author Becker, Stefanie I.
Hamblin-Frohman, Zachary
Egeth, Howard
Chang, Seah
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Issue 6
Keywords Inhibition
Visual search
Enhancement
Suppression
Attention
Language English
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LuckSJGaspelinNFolkCLRemingtonRWTheeuwesJProgress toward resolving the attentional capture debateVisual Cognition202129112110.1080/13506285.2020.1848949
SchönhammerJGBeckerSIKerzelDAttentional capture by context cues, not inhibition of cue singletons, explains same location costsJournal of Experimental Psychology: Human Perception and Performance202046661062810.1037/xhp000073532191113
HarrisAMRemingtonRWBeckerSIFeature specificity in attentional capture by size and colorJournal of Vision201313311510.1167/13.3.12
BaconWFEgethHEOverriding stimulus-driven attentional capturePerception & Psychophysics199455548549610.3758/BF03205306
CunninghamCAEgethHETaming the white bear: Initial costs and eventual benefits of distractor inhibitionPsychological Science201627447648510.1177/095679761562656426893292
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DuncanJThe locus of interference in the perception of simultaneous stimuliPsychological Review198087327210.1037/0033-295X.87.3.272
ChangSEgethHEEnhancement and suppression flexibly guide attentionPsychological Science201930121724173210.1177/095679761987881331693453
LivingstoneACChristieGJWrightRDMcDonaldJJSignal enhancement, not active suppression, follows the contingent capture of visual attentionJournal of Experimental Psychology: Human Perception and Performance201743221922410.1037/xhp000033928134549
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Hamblin-FrohmanZBeckerSIThe attentional template in high and low similarity search: Optimal tuning or tuning to relations?Cognition202121210473210.1016/j.cognition.2021.10473233862440
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LundqvistDJuthPÖhmanAUsing facial emotional stimuli in visual search experiments: The arousal factor explains contradictory resultsCognition and Emotion20142861012102910.1080/02699931.2013.867479
WangBTheeuwesJSalience determines attentional orienting in visual selectionJournal of Experimental Psychology: Human Perception and Performance202046101051105710.1037/xhp000079632757594
MoherJLakshmananBMEgethHEEwenJBInhibition drives early feature-based attentionPsychological Science201425231532410.1177/095679761351125724390823
Lien, M. C., Ruthruff, E., & Hauck, C. (2021). On preventing attention capture: Is singleton suppression actually singleton suppression? Psychological Research. https://doi.org/10.1007/s00426-021-01599-y
GaspelinNLeonardCJLuckSJDirect evidence for active suppression of salient-but-irrelevant sensory inputsPsychological Science201526111740175010.1177/095679761559791326420441
LiesefeldHRMüllerHJA theoretical attempt to revive the serial/parallel-search dichotomyAttention, Perception, & Psychophysics202082122824510.3758/s13414-019-01819-z
Anderson, S. F., Kelley, K., & Maxwell, S. E. (2017). Sample-size planning for more accurate statistical power: A method adjusting sample effect sizes for publication bias and uncertainty. Psychological Science, 28(11), 1547–1562.
J Duncan (2536_CR15) 1980; 87
JM Wolfe (2536_CR51) 1994; 1
A Treisman (2536_CR49) 1990; 16
D Kerzel (2536_CR29) 2020; 32
M Failing (2536_CR17) 2015; 114
J Theeuwes (2536_CR45) 1992; 51
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J Theeuwes (2536_CR46) 1998; 9
HR Liesefeld (2536_CR31) 2020; 82
CL Folk (2536_CR19) 1992; 18
N Gaspelin (2536_CR20) 2018; 22
CJ Ludwig (2536_CR35) 2003; 152
D Lundqvist (2536_CR36) 2014; 28
N Gaspelin (2536_CR23) 2017; 79
MI Posner (2536_CR40) 1980; 32
SI Becker (2536_CR4) 2007; 33
R Desimone (2536_CR12) 1995; 18
J Moher (2536_CR38) 2014; 25
S Chang (2536_CR10) 2021; 83
R Sawaki (2536_CR43) 2010; 72
SI Becker (2536_CR6) 2009; 71
JG Schönhammer (2536_CR44) 2020; 46
HE Egeth (2536_CR16) 1984; 10
NP Bichot (2536_CR8) 2005; 308
A Treisman (2536_CR48) 1980; 12
NA Kaptein (2536_CR28) 1995; 21
S Chang (2536_CR9) 2019; 30
M Sauter (2536_CR42) 2021; 135
N Gaspelin (2536_CR22) 2015; 26
Z Hamblin-Frohman (2536_CR24) 2021; 212
JW Peirce (2536_CR39) 2007; 162
GR Loftus (2536_CR33) 1994; 1
J Theeuwes (2536_CR47) 2000; XVIII
N Gaspelin (2536_CR21) 2019; 29
A Martin (2536_CR37) 2018; 44
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CA Cunningham (2536_CR11) 2016; 27
AE Ipata (2536_CR27) 2006; 9
E Ruthruff (2536_CR41) 2021; 29
AM Harris (2536_CR25) 2013; 13
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B Wang (2536_CR50) 2020; 46
JM Findlay (2536_CR18) 1993; 53
G Horstmann (2536_CR26) 2017; 25
SI Becker (2536_CR5) 2011; 6
H Deubel (2536_CR13) 1996; 36
SI Becker (2536_CR7) 2017; 24
SJ Luck (2536_CR34) 2021; 29
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Snippet In visual search attention can be directed towards items matching top-down goals, but this must compete with factors such as salience that can capture...
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SubjectTerms Behavioral Science and Psychology
Bias
Cognitive Psychology
Eye movements
Inhibition
Memory
Psychology
Recall
Stimuli
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Title Eye movements reveal the contributions of early and late processes of enhancement and suppression to the guidance of visual search
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https://pubmed.ncbi.nlm.nih.gov/PMC9338155
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