Grounding word learning in space

Humans and objects, and thus social interactions about objects, exist within space. Words direct listeners' attention to specific regions of space. Thus, a strong correspondence exists between where one looks, one's bodily orientation, and what one sees. This leads to further correspondenc...

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Veröffentlicht in:	PloS one 2011-12, Vol.6 (12), p.e28095-e28095
Hauptverfasser:	Samuelson, Larissa K, Smith, Linda B, Perry, Lynn K, Spencer, John P
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Animal communication Associative learning Associative memory Behavior - physiology Biology Children Children & youth Computer Science Consistency Experiments Eye movements Female Humans Hypotheses Infant Language Learning Mathematical models Medicine Memory Memory tasks Models, Neurological Names Novels Parents Preschool children Psychology Social and Behavioral Sciences Social aspects Social behavior Social discrimination learning Social factors Social interactions Space Perception - physiology Spatial analysis Spatial discrimination learning Spatial memory Task Performance and Analysis Trends Verbal Learning
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creator	Samuelson, Larissa K Smith, Linda B Perry, Lynn K Spencer, John P
description	Humans and objects, and thus social interactions about objects, exist within space. Words direct listeners' attention to specific regions of space. Thus, a strong correspondence exists between where one looks, one's bodily orientation, and what one sees. This leads to further correspondence with what one remembers. Here, we present data suggesting that children use associations between space and objects and space and words to link words and objects--space binds labels to their referents. We tested this claim in four experiments, showing that the spatial consistency of where objects are presented affects children's word learning. Next, we demonstrate that a process model that grounds word learning in the known neural dynamics of spatial attention, spatial memory, and associative learning can capture the suite of results reported here. This model also predicts that space is special, a prediction supported in a fifth experiment that shows children do not use color as a cue to bind words and objects. In a final experiment, we ask whether spatial consistency affects word learning in naturalistic word learning contexts. Children of parents who spontaneously keep objects in a consistent spatial location during naming interactions learn words more effectively. Together, the model and data show that space is a powerful tool that can effectively ground word learning in social contexts.
doi_str_mv	10.1371/journal.pone.0028095
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subjects	Analysis Animal communication Associative learning Associative memory Behavior - physiology Biology Children Children & youth Computer Science Consistency Experiments Eye movements Female Humans Hypotheses Infant Language Learning Mathematical models Medicine Memory Memory tasks Models, Neurological Names Novels Parents Preschool children Psychology Social and Behavioral Sciences Social aspects Social behavior Social discrimination learning Social factors Social interactions Space Perception - physiology Spatial analysis Spatial discrimination learning Spatial memory Task Performance and Analysis Trends Verbal Learning
title	Grounding word learning in space
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