Abstract
To elucidate the linguistic similarity between the alveolo-palatal sibilant [ɕ] and palatal non-sibilant [ç] in Japanese, the aeroacoustic differences between the two consonants were explored via experimentation with participants and analysis using simplified vocal tract models. The real-time magnetic resonance imaging (rtMRI) observations of articulatory movements demonstrated that some speakers use a nearly identical place of articulation for /si/ [ɕi] and /hi/ [çi]. Simplified vocal tract models were then constructed based on the data captured by static MRI, and the model-generated synthetic sounds were compared with speaker data producing [ɕ] and [ç]. Speaker data demonstrated that the amplitude of the broadband noise of [ç] was weaker than that of [ɕ]; the characteristic peak amplitude at approximately 4 kHz was greater in [ç] than in [ɕ], although the mid-sagittal vocal tract profiles were nearly identical for three of ten subjects in the rtMRI observation. These acoustic differences were reproduced by the proposed models, with differences in the width of the coronal plane constriction and the flow rate. The results suggest the need to include constriction width and flow rate as parameters for articulatory phonetic descriptions of speech sounds.
Highlights
This paper aimed to elucidate an important aspect of the phonetic differences between the sibilant and nonsibilant fricatives through the application of articulatory and acoustic analyses, including numerical simulations of simplified vocal tract models
We have confirmed in a supplementary study, that the similar tendencies were observed in both fricatives produced as a part of words in an anechoic chamber and fricatives produced in real-time magnetic resonance imaging (rtMRI) recordings under
Our study revealed that the acoustic contrast between [ˆ] and [c] is partly accompanied by a difference in the constriction width; this result is in agreement with those in the cited literature
Summary
This paper aimed to elucidate an important aspect of the phonetic differences between the sibilant and nonsibilant fricatives through the application of articulatory and acoustic analyses, including numerical simulations of simplified vocal tract models. In distinctive feature theories, such a distinction is often represented by a feature called [6STRIDENT] (Jakobson et al, 1952; Chomsky and Halle, 1968). According to Chomsky and Halle, consonants that bear this feature are marked acoustically by greater noisiness than their non-strident counterparts. Some researchers have used this feature to classify consonants in general; most researchers restrict its use to the classification of fricatives. In the system of Chomsky and Halle (1968), the feature [STRIDENT] is used to distinguish, for example, a palatoalveolar fricative, such as [S], which is [þSTRIDENT], from a palatal fricative, such as [c], which is [ÀSTRIDENT]
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