Litcius/Paper detail

A compositional neural code in high-level visual cortex can explain jumbled word reading

Aakash Agrawal, K Hari, S. P. Arun

2020eLife56 citationsDOIOpen Access PDF

Abstract

We read jubmled wrods effortlessly, but the neural correlates of this remarkable ability remain poorly understood. We hypothesized that viewing a jumbled word activates a visual representation that is compared to known words. To test this hypothesis, we devised a purely visual model in which neurons tuned to letter shape respond to longer strings in a compositional manner by linearly summing letter responses. We found that dissimilarities between letter strings in this model can explain human performance on visual search, and responses to jumbled words in word reading tasks. Brain imaging revealed that viewing a string activates this letter-based code in the lateral occipital (LO) region and that subsequent comparisons to stored words are consistent with activations of the visual word form area (VWFA). Thus, a compositional neural code potentially contributes to efficient reading.

Topics & Concepts

Word (group theory)Reading (process)Code (set theory)Visual cortexRepresentation (politics)Computer scienceNeural correlates of consciousnessString (physics)Visual perceptionPsychologyCognitive psychologyNeuroscienceArtificial intelligencePerceptionCognitionLinguisticsSet (abstract data type)MathematicsProgramming languagePhilosophyLawPolitical scienceMathematical physicsPoliticsVisual perception and processing mechanismsMultisensory perception and integrationNeural and Behavioral Psychology Studies