No evidence for a single oscillator underlying discrete visual percepts

Theories of perception based on discrete sampling posit that visual consciousness is reconstructed based on snapshot‐like perceptual moments, as opposed to being updated continuously. According to a model proposed by Schneider (2018), discrete sampling can explain both the flash–lag and the Fröhlich...

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Published inThe European journal of neuroscience Vol. 55; no. 11-12; pp. 3054 - 3066
Main Authors Morrow, Audrey, Samaha, Jason
Format Journal Article
LanguageEnglish
Published Chichester Wiley Subscription Services, Inc 01.06.2022
Subjects
alpha oscillations
discrete sampling
flash–lag effect
Fröhlich effect
Oscillations
Sampling
visual illusion
Visual perception
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Abstract Theories of perception based on discrete sampling posit that visual consciousness is reconstructed based on snapshot‐like perceptual moments, as opposed to being updated continuously. According to a model proposed by Schneider (2018), discrete sampling can explain both the flash–lag and the Fröhlich illusion, whereby a lag in the conscious updating of a moving stimulus alters its perceived spatial location in comparison to stationary stimulus. The alpha‐band frequency, which is associated with phasic modulation of stimulus detection and the temporal resolution of perception, has been proposed to reflect the duration of perceptual moments. The goal of this study was to determine whether a single oscillator (e.g., alpha) is underlying the duration of perceptual moments, which would predict that the point of subjective equality (PSE) in the flash–lag and Fröhlich illusions are positively correlated across individuals. Although our displays induced robust flash–lag and Fröhlich effects, virtually zero correlation was seen between the PSE in the two illusions, indicating that the illusion magnitudes are unrelated across observers. These findings suggest that, if discrete sampling theory is true, these illusory percepts either rely on different oscillatory frequencies or not on oscillations at all. Alternatively, discrete sampling may not be the mechanism underlying these two motion illusions or our methods were ill‐suited to test the theory. ∎
AbstractList Theories of perception based on discrete sampling posit that visual consciousness is reconstructed based on snapshot‐like perceptual moments, as opposed to being updated continuously. According to a model proposed by Schneider (2018), discrete sampling can explain both the flash–lag and the Fröhlich illusion, whereby a lag in the conscious updating of a moving stimulus alters its perceived spatial location in comparison to stationary stimulus. The alpha‐band frequency, which is associated with phasic modulation of stimulus detection and the temporal resolution of perception, has been proposed to reflect the duration of perceptual moments. The goal of this study was to determine whether a single oscillator (e.g., alpha) is underlying the duration of perceptual moments, which would predict that the point of subjective equality (PSE) in the flash–lag and Fröhlich illusions are positively correlated across individuals. Although our displays induced robust flash–lag and Fröhlich effects, virtually zero correlation was seen between the PSE in the two illusions, indicating that the illusion magnitudes are unrelated across observers. These findings suggest that, if discrete sampling theory is true, these illusory percepts either rely on different oscillatory frequencies or not on oscillations at all. Alternatively, discrete sampling may not be the mechanism underlying these two motion illusions or our methods were ill‐suited to test the theory. ∎
Theories of perception based on discrete sampling posit that visual consciousness is reconstructed based on snapshot‐like perceptual moments, as opposed to being updated continuously. According to a model proposed by Schneider (2018), discrete sampling can explain both the flash–lag and the Fröhlich illusion, whereby a lag in the conscious updating of a moving stimulus alters its perceived spatial location in comparison to stationary stimulus. The alpha‐band frequency, which is associated with phasic modulation of stimulus detection and the temporal resolution of perception, has been proposed to reflect the duration of perceptual moments. The goal of this study was to determine whether a single oscillator (e.g., alpha) is underlying the duration of perceptual moments, which would predict that the point of subjective equality (PSE) in the flash–lag and Fröhlich illusions are positively correlated across individuals. Although our displays induced robust flash–lag and Fröhlich effects, virtually zero correlation was seen between the PSE in the two illusions, indicating that the illusion magnitudes are unrelated across observers. These findings suggest that, if discrete sampling theory is true, these illusory percepts either rely on different oscillatory frequencies or not on oscillations at all. Alternatively, discrete sampling may not be the mechanism underlying these two motion illusions or our methods were ill‐suited to test the theory.
Abstract Theories of perception based on discrete sampling posit that visual consciousness is reconstructed based on snapshot‐like perceptual moments, as opposed to being updated continuously. According to a model proposed by Schneider (2018), discrete sampling can explain both the flash–lag and the Fröhlich illusion, whereby a lag in the conscious updating of a moving stimulus alters its perceived spatial location in comparison to stationary stimulus. The alpha‐band frequency, which is associated with phasic modulation of stimulus detection and the temporal resolution of perception, has been proposed to reflect the duration of perceptual moments. The goal of this study was to determine whether a single oscillator (e.g., alpha) is underlying the duration of perceptual moments, which would predict that the point of subjective equality (PSE) in the flash–lag and Fröhlich illusions are positively correlated across individuals. Although our displays induced robust flash–lag and Fröhlich effects, virtually zero correlation was seen between the PSE in the two illusions, indicating that the illusion magnitudes are unrelated across observers. These findings suggest that, if discrete sampling theory is true, these illusory percepts either rely on different oscillatory frequencies or not on oscillations at all. Alternatively, discrete sampling may not be the mechanism underlying these two motion illusions or our methods were ill‐suited to test the theory.
Author Morrow, Audrey
Samaha, Jason
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  surname: Samaha
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  organization: University of California, Santa Cruz
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Snippet Theories of perception based on discrete sampling posit that visual consciousness is reconstructed based on snapshot‐like perceptual moments, as opposed to...
Abstract Theories of perception based on discrete sampling posit that visual consciousness is reconstructed based on snapshot‐like perceptual moments, as...
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SubjectTerms alpha oscillations
discrete sampling
flash–lag effect
Fröhlich effect
Oscillations
Sampling
visual illusion
Visual perception
Title No evidence for a single oscillator underlying discrete visual percepts
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fejn.15362
https://www.proquest.com/docview/2681465215/abstract/
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