Probability cueing of singleton-distractor locations in visual search: Priority-map- versus dimension-based inhibition?

Zhang, Bei; Allenmark, Fredrik; Liesefeld, Heinrich René; Shi, Zhuanghua; Müller, Hermann J.

doi:10.1037/xhp0000652

Cited by 48 publications

(98 citation statements)

References 50 publications

(193 reference statements)

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“…We replicated the main findings of Wang and Theeuwes (2018a, b): reduced capture for when the color distractor was presented at the high-probability location relative to the low-probability location, and less efficient selection of the target when it was presented at the high-probability location (for studies that do not show a similar target suppression, see Sauter, Liesefeld, Zehetleitner, & Müller, 2018;van Moorselaar, Daneshtalab, and Slagter, 2020;Zhang, Allenmark, Liesefeld, Shi, & Müller, 2019). This demonstrates that the results are robust and easily reproduced using an online version of this experiment.…”

Section: Discussionsupporting

confidence: 76%

Distractor suppression leads to reduced flanker interference

Ivanov

Theeuwes

2020

Atten Percept Psychophys

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Recent studies using the additional singleton paradigm have shown that regularities in distractor locations can cause biases in the spatial priority map, such that attentional capture by salient singletons is reduced for locations that are likely to contain distractors. It has been suggested that this type of suppression is proactive (i.e., occurring before display onset). The current study replicated the original findings using an online version of the task. To further assess the suppression of high-probability locations, we employed a congruence manipulation similar to the traditional flanker effect, where distractors could be either congruent or incongruent with the response to the target. Experiment 1 shows that through statistical learning distractor suppression reduces the interference from incongruent distractors, as participants made less errors in high-probability versus low-probability conditions. In Experiment 2, participants were forced to search for a specific target feature (the so-called feature-search mode), which is assumed to allow participants to ignore distractors in a top-down manner. Yet even when this “top-down” search mode was employed, there was still a congruence effect when the distractor singleton was presented at the low-probability but not at the high-probability location. The absence, but not reversal, of a congruence effect at the high-probability location also further indicates that this distractor suppression mechanism is proactive. The results indicate that regardless of the search mode used, there is suppression of the high-probability location indicating that this location competes less for attention within the spatial priority map than all other locations.

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Section: Discussionsupporting

confidence: 76%

Distractor suppression leads to reduced flanker interference

Ivanov

Theeuwes

2020

Atten Percept Psychophys

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“…In our variant of this paradigm, the to-be-ignored distractor was more likely to appear in one specific display region (e.g., the upper region), while the target appeared with equal likelihood at all possible locations-that is, the likely distractor region was probabilistically 'cued'. Prior work has shown that TD participants can acquire this cue by statistical learning and use it to 'proactively' (e.g., Geng 2014) and tonically suppress salient distractors occurring at the likely, or 'frequent', positions, as evidenced by such distractors generating less reaction-time (RT) interference-indicative of less 'involuntary attentional capture'-compared to distractors occurring at unlikely, or 'rare', locations (Allenmark et al 2019;Sauter et al 2018;Wang and Theeuwes 2018a;Zhang et al 2019).…”

Section: Rationale Of the Present Studymentioning

confidence: 99%

“…The sample size needed for 90% power was calculated based on the effect sizes of the distractor-location effects in two previous probability-cueing studies using a similar paradigm: the study of (Wang and Theeuwes 2018a) and our replication of this study (Zhang et al 2019). Since our previous study had two sessions, we calculated the effect size based on the first session only: our effect size was comparable to that reported by Wang and Theeuwes but slightly smaller (d z = 1.8 compared to d z = 2.0), and so we conservatively based our power calculation on that, smaller effect size.…”

Section: Participantsmentioning

confidence: 99%

Acquisition and Use of ‘Priors’ in Autism: Typical in Deciding Where to Look, Atypical in Deciding What Is There

Allenmark

Shi

Pistorius

et al. 2020

J Autism Dev Disord

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Individuals with Autism Spectrum Disorder (ASD) are thought to under-rely on prior knowledge in perceptual decision-making. This study examined whether this applies to decisions of attention allocation, of relevance for ‘predictive-coding’ accounts of ASD. In a visual search task, a salient but task-irrelevant distractor appeared with higher probability in one display half. Individuals with ASD learned to avoid ‘attentional capture’ by distractors in the probable region as effectively as control participants—indicating typical priors for deploying attention. However, capture by a ‘surprising’ distractor at an unlikely location led to greatly slowed identification of a subsequent target at that location—indicating that individuals with ASD attempt to control surprise (unexpected attentional capture) by over-regulating parameters in post-selective decision-making.

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“…Likewise, a spatially unpredictable color or luminance singleton distractor that initially captures attention, no longer does so when it recurs (Gaspelin, Gaspar, & Luck, 2019;Geng & Diquattro, 2010;Geyer, Muller, & Krummenacher, 2006;Vatterott & Vecera, 2012). Interestingly, the color of the singleton does not have to be the same as long as the color singleton is predictably a distractor (Gaspelin, Leonard, & Luck, 2017;Stilwell & Vecera, 2019;Vatterott, Mozer, & Vecera, 2018;Won, Kosoyan, & Geng, 2019;Yantis & Egeth, 1999;Zhang et al, 2019). Statistical learning of distractor properties, regardless of whether it is spatial or feature-based, appears to occur relatively fast.…”

Section: Introductionmentioning

confidence: 99%

“…For example, a number of studies have shown that spatial locations with a high probability of containing a salient distractor are de-prioritized and this reduces distractor interference. Evidence of spatial de-prioritization comes from the finding that it takes longer to find targets that (infrequently) appear in that same location (Failing & Theeuwes, 2018;Ferrante et al, 2018;Wang & Theeuwes, 2018a, 2018bWang, van Driel, Ort, & Theeuwes, 2019;Zhang, Allenmark, Liesefeld, Shi, & Müller, 2019). Likewise, a spatially unpredictable color or luminance singleton distractor that initially captures attention, no longer does so when it recurs (Gaspelin, Gaspar, & Luck, 2019;Geng & Diquattro, 2010;Geyer, Muller, & Krummenacher, 2006;Vatterott & Vecera, 2012).…”

Section: Introductionmentioning

confidence: 99%

Changes in visual cortical processing attenuate singleton distraction during visual search

Won

Forloines

Zhang

et al. 2020

Cortex

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The ability to suppress distractions is essential to successful completion of goal-directed behaviors. Several behavioral studies have recently provided strong evidence that learned suppression may be particularly efficient in reducing distractor interference. Expectations about a distractor's repeated location, color, or even presence is rapidly learned and used to attenuate interference. In this study, we use a visual search paradigm in which a color singleton, which is known to capture attention, occurs within blocks with high or low frequency. The behavioral results show reduced singleton interference during the high compared to the low frequency block (Won et al., 2019). The fMRI results provide evidence that the attenuation of distractor interference is supported by changes in singleton, target, and non-salient distractor representations within retinotopic visual cortex. These changes in visual cortex are accompanied by findings that singleton-present trials compared to non-singleton trials produce greater activation in bilateral parietal cortex, indicative of attentional capture, in low frequency, but not high frequency blocks. Together, these results suggest that the readout of saliency signals associated with an expected color singleton from visual cortex is suppressed, resulting in less competition for attentional priority in frontoparietal attentional control regions.

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Probability cueing of singleton-distractor locations in visual search: Priority-map- versus dimension-based inhibition?

Cited by 48 publications

References 50 publications

Distractor suppression leads to reduced flanker interference

Distractor suppression leads to reduced flanker interference

Acquisition and Use of ‘Priors’ in Autism: Typical in Deciding Where to Look, Atypical in Deciding What Is There

Changes in visual cortical processing attenuate singleton distraction during visual search

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