A Working Memory Model of Sentence Processing as Binding Morphemes to Syntactic Positions

Maayan Keshev; Mandy Cartner; Aya Meltzer-Asscher; Brian Dillon

doi:10.1111/tops.12780

A Working Memory Model of Sentence Processing as Binding Morphemes to Syntactic Positions

Maayan Keshev^*, Mandy Cartner, Aya Meltzer-Asscher, Brian Dillon

^*Corresponding author for this work

Department of Linguistics

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

As they process complex linguistic input, language comprehenders must maintain a mapping between lexical items (e.g., morphemes) and their syntactic position in the sentence. We propose a model of how these morpheme-position bindings are encoded, maintained, and reaccessed in working memory, based on working memory models such as “serial-order-in-a-box” and its SOB-Complex Span version. Like those models, our model of linguistic working memory derives a range of attested memory interference effects from the process of binding items to positions in working memory. We present simulation results capturing similarity-based interference as well as item distortion effects. Our model provides a unified account of these two major classes of interference effects in sentence processing, attributing both types of effects to an associative memory architecture underpinning linguistic computation.

Original language	English
Journal	Topics in Cognitive Science
DOIs	https://doi.org/10.1111/tops.12780
State	Accepted/In press - 2024

Bibliographical note

Publisher Copyright:
© 2024 The Author(s). Topics in Cognitive Science published by Wiley Periodicals LLC on behalf of Cognitive Science Society.

Keywords

Cognitive modeling
Psycholinguistics
Sentence processing
Working memory

Access to Document

10.1111/tops.12780

Cite this

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abstract = "As they process complex linguistic input, language comprehenders must maintain a mapping between lexical items (e.g., morphemes) and their syntactic position in the sentence. We propose a model of how these morpheme-position bindings are encoded, maintained, and reaccessed in working memory, based on working memory models such as “serial-order-in-a-box” and its SOB-Complex Span version. Like those models, our model of linguistic working memory derives a range of attested memory interference effects from the process of binding items to positions in working memory. We present simulation results capturing similarity-based interference as well as item distortion effects. Our model provides a unified account of these two major classes of interference effects in sentence processing, attributing both types of effects to an associative memory architecture underpinning linguistic computation.",

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A Working Memory Model of Sentence Processing as Binding Morphemes to Syntactic Positions

Abstract

Bibliographical note

Keywords

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