![]() ![]() ![]() The goal of this project is to determine which of five physical parameters best characterizes sonority differences: intensity (loudness), peak rate of oral air flow, peak intraoral air pressure, constriction duration, or frequency of the first formant. Consequently, the potential contribution of this project is to resolve a long-standing controversy regarding the physical basis of sonority. Consequently, a number of phonologists and phoneticians have questioned the theoretical validity of sonority altogether, claiming that this notion is impossible to characterize in a concrete way. However, to date a phonetic definition of sonority (in articulatory, acoustic, or perceptual terms) has remained elusive. In order to explain this universal effect, many linguists have suggested that sonority derives from differences in how sounds are pronounced or perceived. Specifically, the following issues will be addressed: (1) What is sonority? (2) What is the articulatory, acoustic, and/or auditory basis of sonority? (3) How should sonority be quantified? (4) Is the sonority scale universal or language-specific? and (5) What role should sonority play in formal phonological constraints? It has long been recognized that sonority differences determine the sequencing of sounds within syllables, a pattern observed in all languages. The general topic of this dissertation is sonority. ![]() Primary Place of Performance Congressional District: John Kingston (Principal Investigator) Sponsored Research Office:.Joan Maling BCS Division Of Behavioral and Cognitive Sci SBE Direct For Social, Behav & Economic Scie DOCTORAL DISSERTATION RESEARCH: Quantifying the Sonority Hierarchy NSF Org:īCS Division Of Behavioral and Cognitive Sci ![]()
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