Litcius/Paper detail

Neurobehavioral Correlates of Surprisal in Language Comprehension: A Neurocomputational Model

Harm Brouwer, Francesca Delogu, Noortje J. Venhuizen, Matthew W. Crocker

2021Frontiers in Psychology44 citationsDOIOpen Access PDF

Abstract

Expectation-based theories of language comprehension, in particular Surprisal Theory, go a long way in accounting for the behavioral correlates of word-by-word processing difficulty, such as reading times. An open question, however, is in which component(s) of the Event-Related brain Potential (ERP) signal Surprisal is reflected, and how these electrophysiological correlates relate to behavioral processing indices. Here, we address this question by instantiating an explicit neurocomputational model of incremental, word-by-word language comprehension that produces estimates of the N400 and the P600-the two most salient ERP components for language processing-as well as estimates of "comprehension-centric" Surprisal for each word in a sentence. We derive model predictions for a recent experimental design that directly investigates "world-knowledge"-induced Surprisal. By relating these predictions to both empirical electrophysiological and behavioral results, we establish a close link between Surprisal, as indexed by reading times, and the P600 component of the ERP signal. The resultant model thus offers an integrated neurobehavioral account of processing difficulty in language comprehension.

Topics & Concepts

N400P600PsychologyComprehensionCognitive psychologySentenceNatural language processingEvent-related potentialCognitionComputer scienceNeuroscienceProgramming languageNeurobiology of Language and BilingualismReading and Literacy DevelopmentEEG and Brain-Computer Interfaces
Neurobehavioral Correlates of Surprisal in Language Comprehension: A Neurocomputational Model | Litcius