Cognitive Phonetics: The Transduction of Distinctive Features at the Phonology-Phonetics Interface

We propose that the interface between phonology and phonetics is mediated by a transduction process that converts elementary units of phonological computation, features, into temporally coordinated neuromuscular patterns, called ‘True Phonetic Representations’, which are directly interpretable by th...
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Autor*in:	Veno Volenec [verfasserIn] Charles Reiss [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2018

Schlagwörter:	phonology-phonetics interface cognitive phonetics distinctive features transduction neurobiology of language substance-free generative phonology

Übergeordnetes Werk:	In: Biolinguistics - PsychOpen GOLD/ Leibniz Institute for Psychology, 2009, 11(2018), Seite 251-294
Übergeordnetes Werk:	volume:11 ; year:2018 ; pages:251-294

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.5964/bioling.9089

Katalog-ID:	DOAJ096103523

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container_title	Biolinguistics
authorswithroles_txt_mv	Veno Volenec @@aut@@ Charles Reiss @@aut@@
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spellingShingle	Veno Volenec misc P1-1091 misc phonology-phonetics interface misc cognitive phonetics misc distinctive features misc transduction misc neurobiology of language misc substance-free generative phonology misc Language and Literature misc P misc Philology. Linguistics Cognitive Phonetics: The Transduction of Distinctive Features at the Phonology-Phonetics Interface
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topic_title	P1-1091 Cognitive Phonetics: The Transduction of Distinctive Features at the Phonology-Phonetics Interface phonology-phonetics interface cognitive phonetics distinctive features transduction neurobiology of language substance-free generative phonology
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title	Cognitive Phonetics: The Transduction of Distinctive Features at the Phonology-Phonetics Interface
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title_full	Cognitive Phonetics: The Transduction of Distinctive Features at the Phonology-Phonetics Interface
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title_auth	Cognitive Phonetics: The Transduction of Distinctive Features at the Phonology-Phonetics Interface
abstract	We propose that the interface between phonology and phonetics is mediated by a transduction process that converts elementary units of phonological computation, features, into temporally coordinated neuromuscular patterns, called ‘True Phonetic Representations’, which are directly interpretable by the motor system of speech production. Our view of the interface is constrained by substance-free generative phonological assumptions and by insights gained from psycholinguistic and phonetic models of speech production. To distinguish transduction of abstract phonological units into planned neuromuscular patterns from the biomechanics of speech production usually associated with physiological phonetics, we have termed this interface theory ‘Cognitive Phonetics’ (CP). The inner workings of CP are described in terms of Marr’s (1982/2010) tri-level approach, which we used to construct a linking hypothesis relating formal phonology to neurobiological activity. Potential neurobiological correlates supporting various parts of CP are presented. We also argue that CP augments the study of certain phonetic phenomena, most notably coarticulation, and suggest that some phenomena usually considered phonological (e.g., naturalness and gradience) receive better explanations within CP.
abstractGer	We propose that the interface between phonology and phonetics is mediated by a transduction process that converts elementary units of phonological computation, features, into temporally coordinated neuromuscular patterns, called ‘True Phonetic Representations’, which are directly interpretable by the motor system of speech production. Our view of the interface is constrained by substance-free generative phonological assumptions and by insights gained from psycholinguistic and phonetic models of speech production. To distinguish transduction of abstract phonological units into planned neuromuscular patterns from the biomechanics of speech production usually associated with physiological phonetics, we have termed this interface theory ‘Cognitive Phonetics’ (CP). The inner workings of CP are described in terms of Marr’s (1982/2010) tri-level approach, which we used to construct a linking hypothesis relating formal phonology to neurobiological activity. Potential neurobiological correlates supporting various parts of CP are presented. We also argue that CP augments the study of certain phonetic phenomena, most notably coarticulation, and suggest that some phenomena usually considered phonological (e.g., naturalness and gradience) receive better explanations within CP.
abstract_unstemmed	We propose that the interface between phonology and phonetics is mediated by a transduction process that converts elementary units of phonological computation, features, into temporally coordinated neuromuscular patterns, called ‘True Phonetic Representations’, which are directly interpretable by the motor system of speech production. Our view of the interface is constrained by substance-free generative phonological assumptions and by insights gained from psycholinguistic and phonetic models of speech production. To distinguish transduction of abstract phonological units into planned neuromuscular patterns from the biomechanics of speech production usually associated with physiological phonetics, we have termed this interface theory ‘Cognitive Phonetics’ (CP). The inner workings of CP are described in terms of Marr’s (1982/2010) tri-level approach, which we used to construct a linking hypothesis relating formal phonology to neurobiological activity. Potential neurobiological correlates supporting various parts of CP are presented. We also argue that CP augments the study of certain phonetic phenomena, most notably coarticulation, and suggest that some phenomena usually considered phonological (e.g., naturalness and gradience) receive better explanations within CP.
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title_short	Cognitive Phonetics: The Transduction of Distinctive Features at the Phonology-Phonetics Interface
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Cognitive Phonetics: The Transduction of Distinctive Features at the Phonology-Phonetics Interface

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