Dissociating between the N2pc and attentional shifting: An attentional blink study

Zivony, Alon; Allon, Ayala S.; Luria, Roy; Lamy, Dominique

doi:10.1016/j.neuropsychologia.2018.11.003

Cited by 75 publications

(72 citation statements)

References 99 publications

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“…In our experiments, we observed a robust target-evoked N2pc even when we verified with alpha-band activity that observers had precisely attended the target location in advance. This finding is difficult to reconcile with the early view that the N2pc reflects a shift of covert spatial attention to a target stimulus (Eimer, 1996;Woodman and Luck, 1999) but dovetails with other recent evidence that the N2pc can be dissociated from shifts of spatial attention (Zivony et al, 2018). This result can be naturally explained by an individuation account of the N2pc (Mazza and Caramazza, 2015).…”

Section: Implications For the Interpretation Of The N2pc Componentcontrasting

confidence: 75%

“…This account is closely related to the individuation account because localization is considered a necessary component of object individuation (Kahneman et al, 1992;Xu and Chun, 2009). Zivony et al (2018) proposed another possibility. Specifically, Zivony et al suggested that the N2pc reflects attentional engagement, which they distinguished from the deployment of spatial attention.…”

Section: Implications For the Interpretation Of The N2pc Componentmentioning

confidence: 99%

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Covert Spatial Attention Speeds Target Individuation

2020

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Covert spatial attention has long been thought to speed visual processing. Psychophysics studies have shown that target information accrues faster at attended locations than at unattended locations. However, with behavioral evidence alone, it is difficult to determine whether attention speeds visual processing of the target or subsequent postperceptual stages of processing (e.g., converting sensory responses into decision signals). Moreover, although many studies have shown that attention can boost the amplitude of visually evoked neural responses, no robust effect has been observed on the latency of those neural responses. Here, we offer new evidence that may reconcile the neural and behavioral findings. We examined whether covert attention influenced the latency of the N2pc component, an electrophysiological marker of visual selection that has been linked with object individuation-the formation of an object representation that is distinct from the background and from other objects in the scene. To this end, we manipulated whether or not human observers (male and female) covertly attended the location of an impending search target. We found that the target evoked N2pc onset ϳ20 ms earlier when the target location was cued than when it was not cued. In a second experiment, we provided a direct replication of this effect, confirming that the effect of attention on N2pc latency is robust. Thus, although attention may not speed the earliest stages of sensory processing, attention does speed the critical transition between raw sensory encoding and the formation of individuated object representations.

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Section: Implications For the Interpretation Of The N2pc Componentcontrasting

confidence: 75%

Section: Implications For the Interpretation Of The N2pc Componentmentioning

confidence: 99%

Covert Spatial Attention Speeds Target Individuation

2020

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“…Accordingly, the N2pc seems to reflect processes akin to what we referred to as attentional engagement in the section titled Processing stages in a typical PoP experiment (see Zivony, Allon, Luria & Lamy, 2018 for related evidence).…”

Section: Pop and Event-related Potentialsmentioning

confidence: 92%

Top-down, bottom-up and selection-history-based control of attention: A failed trichotomy? The case of Priming of pop-out (PoP)

Ramgir¹,

Lamy²

2020

Preprint

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When we search for an object, our performance is strongly influenced by our past experience. In the lab, this influence has been demonstrated by investigating a variety of phenomena, including inter-trial priming, statistical learning and reward history, and collectively referred to as selection history. The resulting findings have led researchers to claim that selection history guides attention, thereby challenging the prevailing dichotomy, according to which attentional priority is determined solely by top-down goals and bottom-up salience. The objective of the present review is to reexamine this claim by evaluating the evidence that specifically pertains to the role of selection history in attentional guidance, rather than in later processes occurring after the target is found. We focus on one selection history phenomenon, priming of pop-out (PoP). After demarcating the conditions under which PoP effects can be dissociated from top-down effects, we review the relevant findings, while distinguishing between the main experimental rationales adopted to address this question. We conclude that despite some inconsistencies that should be resolved by further research, most of the extant empirical evidence does not support the idea that PoP affects attentional priority. We call for similar reevaluations of other selection history phenomena and caution against burying the bottom-up vs. top-down dichotomy too hastily.

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“…Finally, PAF suggests a more parsimonious account of the extant findings, as it does not require a distinction between attentional shifts and attentional engagement. In keeping with the core insight of the camera model (Zivony, Allon, Luria & Lamy, 2018;Zivony & Lamy, 2016), PAF also posits that cue validity and compatibility effects can be dissociated and are not two equivalent measures of attentional selection as is often assumed (e.g., Theeuwes et al, 2000). However, according to PAF, these measures do not reflect attentional shifting and engagement, respectively.…”

Section: Relation To Other Models Of Attentionmentioning

confidence: 96%

Spatial cueing effects are not what we thought: on the timing of attentional deployment

Yaron

Lamy

2020

Preprint

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Extensive research has shown that objects that are salient or match our task goals are most likely to capture attention. But are we at the mercy of the constant changes occurring in our environment, and automatically move our attention to the ever-changing location with the highest priority? Or do we wait for clues that the appropriate moment has arrived to deploy our attention? We addressed this hitherto neglected issue in three experiments. Using a spatial-cueing paradigm, we examined whether attention is deployed as soon as a salient change occurs (the cue), or only when the context signaling that attention should be deployed appears (the search display). The cue matched the target color and was therefore expected to enjoy high attentional priority. We used two separate response compatibility manipulations, one pertaining to the cue, in the cueing display, and the other to the cued distractor, in the search display. Neutral conditions allowed us to disentangle the respective effects of these manipulations. Our results support the hypothesis that attention does not occur until the search-relevant context appears. These findings challenge the traditional interpretation of spatial-cueing effects. They are discussed within the Priority Accumulation Framework (PAF) that we confront to other attention models.

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Dissociating between the N2pc and attentional shifting: An attentional blink study

Cited by 75 publications

References 99 publications

Covert Spatial Attention Speeds Target Individuation

Covert Spatial Attention Speeds Target Individuation

Top-down, bottom-up and selection-history-based control of attention: A failed trichotomy? The case of Priming of pop-out (PoP)

Spatial cueing effects are not what we thought: on the timing of attentional deployment

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