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The Presence of Background Noise Extends the Competitor Space in Native and Non‐Native Spoken‐Word Recognition: Insights from Computational Modeling
Cognitive Science 46 (2):e13110 (2022)
Abstract
Oral communication often takes place in noisy environments, which challenge spoken-word recognition. Previous research has suggested that the presence of background noise extends the number of candidate words competing with the target word for recognition and that this extension affects the time course and accuracy of spoken-word recognition. In this study, we further investigated the temporal dynamics of competition processes in the presence of background noise, and how these vary in listeners with different language proficiency (i.e., native and non-native) using computational modeling. We developed ListenIN (Listen-In-Noise), a neural-network model based on an autoencoder architecture, which learns to map phonological forms onto meanings in two languages and simulates native and non-native spoken-word comprehension. We also examined the model's activation states during online spoken-word recognition. These analyses demonstrated that the presence of background noise increases the number of competitor words, which are engaged in phonological competition and that this happens in similar ways intra and interlinguistically and in native and non-native listening. Taken together, our results support accounts positing a “many-additional-competitors scenario” for the effects of noise on spoken-word recognition.My notes
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References found in this work
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Competition and cooperation among similar representations: Toward a unified account of facilitative and inhibitory effects of lexical neighbors.Qi Chen & Daniel Mirman - 2012 - Psychological Review 119 (2):417-430.
The locus of the effects of sentential-semantic context in spoken-word processing.Pienie Zwitserlood - 1989 - Cognition 32 (1):25-64.
EARSHOT: A Minimal Neural Network Model of Incremental Human Speech Recognition.James S. Magnuson, Heejo You, Sahil Luthra, Monica Li, Hosung Nam, Monty Escabí, Kevin Brown, Paul D. Allopenna, Rachel M. Theodore, Nicholas Monto & Jay G. Rueckl - 2020 - Cognitive Science 44 (4):e12823.
An amodal shared resource model of language-mediated visual attention.Alastair C. Smith, Padraic Monaghan & Falk Huettig - 2013 - Frontiers in Psychology 4.
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