A computational model of the lexical-semantic system, based on a grounded cognition approach

This work presents a connectionist model of the semantic-lexical system based on grounded cognition. The model assumes that the lexical and semantic aspects of language are memorized in two distinct stores. The semantic properties of objects are represented as a collection of features, whose number...

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Main Authors: Mauro Ursino, Cristiano Cuppini, Elisa Magosso
Format: Article
Language:English
Published: Frontiers Media S.A. 2010-12-01
Series:Frontiers in Psychology
Subjects:
Online Access:http://journal.frontiersin.org/Journal/10.3389/fpsyg.2010.00221/full
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spelling doaj-ea7d3d6aacc94783afd85f0ec07839012020-11-25T01:40:45ZengFrontiers Media S.A.Frontiers in Psychology1664-10782010-12-01110.3389/fpsyg.2010.002212236A computational model of the lexical-semantic system, based on a grounded cognition approachMauro Ursino0Cristiano Cuppini1Elisa Magosso2University of BolognaUniversity of BolognaUniversity of BolognaThis work presents a connectionist model of the semantic-lexical system based on grounded cognition. The model assumes that the lexical and semantic aspects of language are memorized in two distinct stores. The semantic properties of objects are represented as a collection of features, whose number may vary among objects. Features are described as activation of neural oscillators in different sensory-motor areas (one area for each feature) topographically organized to implement a similarity principle. Lexical items are represented as activation of neural groups in a different layer.Lexical and semantic aspects are then linked together on the basis of previous experience, using physiological learning mechanisms. After training, features which frequently occurred together, and the corresponding word-forms, become linked via reciprocal excitatory synapses. The model also includes some inhibitory synapses: features in the semantic network tend to inhibit words not associated with them during the previous learning phase. Simulations show that after learning, presentation of a cue can evoke the overall object and the corresponding word in the lexical area. Moreover, different objects and the corresponding words can be simultaneously retrieved and segmented via a time division in the gamma-band. Word presentation, in turn, activates the corresponding features in the sensory-motor areas, recreating the same conditions occurring during learning. The model simulates the formation of categories, assuming that objects belong to the same category if they share some features. Simple exempla are shown to illustrate how words representing a category can be distinguished from words representing individual members. Finally, the model can be used to simulate patients with focalized lesions, assuming an impairment of synaptic strength in specific feature areas.http://journal.frontiersin.org/Journal/10.3389/fpsyg.2010.00221/fullCategorizationsynchronizationobject recognitionword recognitiongamma-band oscillationsHebbian rules
collection DOAJ
language English
format Article
sources DOAJ
author Mauro Ursino
Cristiano Cuppini
Elisa Magosso
spellingShingle Mauro Ursino
Cristiano Cuppini
Elisa Magosso
A computational model of the lexical-semantic system, based on a grounded cognition approach
Frontiers in Psychology
Categorization
synchronization
object recognition
word recognition
gamma-band oscillations
Hebbian rules
author_facet Mauro Ursino
Cristiano Cuppini
Elisa Magosso
author_sort Mauro Ursino
title A computational model of the lexical-semantic system, based on a grounded cognition approach
title_short A computational model of the lexical-semantic system, based on a grounded cognition approach
title_full A computational model of the lexical-semantic system, based on a grounded cognition approach
title_fullStr A computational model of the lexical-semantic system, based on a grounded cognition approach
title_full_unstemmed A computational model of the lexical-semantic system, based on a grounded cognition approach
title_sort computational model of the lexical-semantic system, based on a grounded cognition approach
publisher Frontiers Media S.A.
series Frontiers in Psychology
issn 1664-1078
publishDate 2010-12-01
description This work presents a connectionist model of the semantic-lexical system based on grounded cognition. The model assumes that the lexical and semantic aspects of language are memorized in two distinct stores. The semantic properties of objects are represented as a collection of features, whose number may vary among objects. Features are described as activation of neural oscillators in different sensory-motor areas (one area for each feature) topographically organized to implement a similarity principle. Lexical items are represented as activation of neural groups in a different layer.Lexical and semantic aspects are then linked together on the basis of previous experience, using physiological learning mechanisms. After training, features which frequently occurred together, and the corresponding word-forms, become linked via reciprocal excitatory synapses. The model also includes some inhibitory synapses: features in the semantic network tend to inhibit words not associated with them during the previous learning phase. Simulations show that after learning, presentation of a cue can evoke the overall object and the corresponding word in the lexical area. Moreover, different objects and the corresponding words can be simultaneously retrieved and segmented via a time division in the gamma-band. Word presentation, in turn, activates the corresponding features in the sensory-motor areas, recreating the same conditions occurring during learning. The model simulates the formation of categories, assuming that objects belong to the same category if they share some features. Simple exempla are shown to illustrate how words representing a category can be distinguished from words representing individual members. Finally, the model can be used to simulate patients with focalized lesions, assuming an impairment of synaptic strength in specific feature areas.
topic Categorization
synchronization
object recognition
word recognition
gamma-band oscillations
Hebbian rules
url http://journal.frontiersin.org/Journal/10.3389/fpsyg.2010.00221/full
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