Visual information representation and rapid-scene categorization are simultaneous across cortex: An MEG study

Perceiving the visual world around us requires the brain to represent the features of stimuli and to categorize the stimulus based on these features. Incorrect categorization can result either from errors in visual representation or from errors in processes that lead to categorical choice. To unders...

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Bibliographic Details
Published in:NeuroImage (Orlando, Fla.) Fla.), 2016-07, Vol.134, p.295-304
Main Authors: Ramkumar, Pavan, Hansen, Bruce C., Pannasch, Sebastian, Loschky, Lester C.
Format: Article
Language:English
Subjects:
Adult
Brain Mapping - methods
Brain research
Cerebral Cortex - physiology
Confusion matrices
Data analysis
Experiments
Eye movements
Female
Human performance
Humans
Information processing
Magnetoencephalography
Magnetoencephalography - methods
Male
MEG
Multiple linear regression
Multivariate decoding
Nerve Net - physiology
Neural coding
Pattern Recognition, Visual - physiology
Reaction Time - physiology
Recognition (Psychology) - physiology
Scalp
Scene gist
Spatial envelope
Studies
Task Performance and Analysis
Temporal cortex
Temporal lobe
Timing of visual perception
Visual cortex
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Summary:Perceiving the visual world around us requires the brain to represent the features of stimuli and to categorize the stimulus based on these features. Incorrect categorization can result either from errors in visual representation or from errors in processes that lead to categorical choice. To understand the temporal relationship between the neural signatures of such systematic errors, we recorded whole-scalp magnetoencephalography (MEG) data from human subjects performing a rapid-scene categorization task. We built scene category decoders based on (1) spatiotemporally resolved neural activity, (2) spatial envelope (SpEn) image features, and (3) behavioral responses. Using confusion matrices, we tracked how well the pattern of errors from neural decoders could be explained by SpEn decoders and behavioral errors, over time and across cortical areas. Across the visual cortex and the medial temporal lobe, we found that both SpEn and behavioral errors explained unique variance in the errors of neural decoders. Critically, these effects were nearly simultaneous, and most prominent between 100 and 250ms after stimulus onset. Thus, during rapid-scene categorization, neural processes that ultimately result in behavioral categorization are simultaneous and co-localized with neural processes underlying visual information representation. •Humans recognize scene categories from the briefest of glimpses.•Errors in categorization behavior can result from inadequacies in both visual representation and behavioral judgment.•We used MEG and multivariate decoding in source space to track the neural correlates of subjective categorization errors.•At the cortical level, behavioral categorization is simultaneous and co-localized with visual information representation.
ISSN:1053-8119
1095-9572
DOI:10.1016/j.neuroimage.2016.03.027