Automatic change detection: Mismatch negativity and the now-classic Rensink, O’Reagan, and Clark (1997) stimuli

File, Domonkos; Petro, Bela; Gaál, Zsófia Anna; Csikós, Nóra; Czigler, István

doi:10.3389/fpsyg.2022.975714

Cited by 2 publications

(3 citation statements)

References 45 publications

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“… 32 , 40 , 41 ) stimulus, in a stream of identical ones, can affect subjective duration judgments and lead to duration overestimations of the odd stimulation. Given that, to our knowledge, no studies on timing had tested whether more complex stimuli (i.e., natural scenes) could induce similar effects in an oddball setting (see also 42 – 44 for the use of more complex stimuli in variations of the oddball paradigm yet not in terms of time perception), we reasoned that our findings could further expand the literature around the oddball effect, as well as provide evidence on the role of attention on intervals’ duration estimates.…”

Section: Resultsmentioning

confidence: 99%

Attention and schema violations of real world scenes differentially modulate time perception

Tachmatzidou

Vatakis

2023

Sci Rep

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In the real world, object arrangement follows a number of rules. Some of the rules pertain to the spatial relations between objects and scenes (i.e., syntactic rules) and others about the contextual relations (i.e., semantic rules). Research has shown that violation of semantic rules influences interval timing with the duration of scenes containing such violations to be overestimated as compared to scenes with no violations. However, no study has yet investigated whether both semantic and syntactic violations can affect timing in the same way. Furthermore, it is unclear whether the effect of scene violations on timing is due to attentional or other cognitive accounts. Using an oddball paradigm and real-world scenes with or without semantic and syntactic violations, we conducted two experiments on whether time dilation will be obtained in the presence of any type of scene violation and the role of attention in any such effect. Our results from Experiment 1 showed that time dilation indeed occurred in the presence of syntactic violations, while time compression was observed for semantic violations. In Experiment 2, we further investigated whether these estimations were driven by attentional accounts, by utilizing a contrast manipulation of the target objects. The results showed that an increased contrast led to duration overestimation for both semantic and syntactic oddballs. Together, our results indicate that scene violations differentially affect timing due to violation processing differences and, moreover, their effect on timing seems to be sensitive to attentional manipulations such as target contrast.

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Section: Resultsmentioning

confidence: 99%

Attention and schema violations of real world scenes differentially modulate time perception

Tachmatzidou

Vatakis

2023

Sci Rep

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“…If not, it would be unlikely that our foraging ancestor would have been able to detect those changes in visual properties, such as when a predator was approaching. A recent study by File et al [69] found that change-blindness does not imply the absence of visual representations or deficits in distinguishing regular and irregular visual representations [69]. Their findings indicate that even for the most subtle perceptual changes, our brain's encode such disparities.…”

Section: Smout Et Al [66] and Male And O'sheamentioning

confidence: 96%

“…The question is, what neural signatures reveal detection? File et al [69] reported posterior negativities �250 ms for undetected changes in scenery stimuli. This does not appear here.…”

Section: Smout Et Al [66] and Male And O'sheamentioning

confidence: 97%

Orientation and contrast deviance examined: Contrast effects mimic deviant-related negativity yet neither produce the canonical neural correlate of prediction error

Male

2024

PLoS ONE

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The visual mismatch negativity (vMMN) is a negative-going event-related potential (ERP) component that is largest somewhere between 100 and 300 ms after the onset of an unpredictable visual event (i.e., a deviant) in an otherwise predictable sequence of visual events (i.e., standards). Many have argued that the vMMN allows us to monitor our ever-changing visual environment for deviants critical to our survival. Recently, however, it has become unclear whether unpredicted changes in low-level features of visual input, like orientation, can evoke the vMMN. I address this by testing isolated orientation changes, to confirm recent findings, and isolated contrast changes, to determine whether other low-level features of visual input do not evoke the vMMN in a traditional oddball paradigm. Eighteen participants saw sequences of rare, unanticipated, and different deviant stimuli, interspersed among frequent, anticipated, and identical standard stimuli. Stimuli were Gabor patches. Neither deviant produced a vMMN. Therefore, changes in low-level visual properties of well-controlled stimuli–a stimulus in which one property can be manipulated while all others remain unaffected–like Gabor patches do not yield a vMMN.

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Automatic change detection: Mismatch negativity and the now-classic Rensink, O’Reagan, and Clark (1997) stimuli

Cited by 2 publications

References 45 publications

Attention and schema violations of real world scenes differentially modulate time perception

Attention and schema violations of real world scenes differentially modulate time perception

Orientation and contrast deviance examined: Contrast effects mimic deviant-related negativity yet neither produce the canonical neural correlate of prediction error

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