Abstract
Human scene recognition is a rapid multistep process evolving over time from single scene image to spatial layout processing. We used multivariate pattern analyses on magnetoencephalography (MEG) data to unravel the time course of this cortical process. Following an early signal for lower-level visual analysis of single scenes at ~100ms, we found a marker of real-world scene size, i.e. spatial layout processing, at ~250ms indexing neural representations robust to changes in unrelated scene properties and viewing conditions. For a quantitative model of how scene size representations may arise in the brain, we compared MEG data to a deep neural network model trained on scene classification. Representations of scene size emerged intrinsically in the model, and resolved emerging neural scene size representation. Together our data provide a first description of an electrophysiological signal for layout processing in humans, and suggest that deep neural networks are a promising framework to investigate how spatial layout representations emerge in the human brain.
Highlights
ABSTRACT scene image to spatial layout processing
Operationalizing spatial layout as scene size, that is the size of the space a scene subtends in the real-world (Kravitz et al, 2011a; Park et al, 2011, 2014), we report here an electrophysiological signal of spatial layout perception in the human brain
Using multivariate pattern classification (Carlson et al, 2013; Cichy et al, 2014; Isik et al, 2014) and representational similarity analysis (Kriegeskorte, 2008; Kriegeskorte and Kievit, 2013; Cichy et al, 2014) on millisecond-resolved magnetoencephalography data (MEG), we identified a marker of scene size around 250ms, preceded by and distinct from an early signal for lower-level visual analysis of scene images at ~100ms
Summary
Participants were 15 right-handed, healthy volunteers with normal or corrected-to-normal vision = 25.87 ± 5.38 years, 11 female). The Committee on the Use of Humans as Experimental Subjects (COUHES) at MIT approved the experiment and each participant gave written informed consent for participation in the study, for data analysis and publication of study results
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