Acoustic and spectral characteristics of young children’s fricative productions: A developmental perspective

Speech production by children with cochlear implants (CIs) is generally less intelligible and less accurate on a phonemic level than that of normally hearing children. Research has reported that children with CIs produce less acoustic contrast between phonemes than normally hearing children, but these studies have included correct and incorrect productions. The present study compared the extent of contrast between correct productions of /s/ and /$/ by children with CIs and two comparison groups: (1) normally hearing children of the same chronological age as the children with CIs and (2) normally hearing children with the same duration of auditory experience. Spectral peaks and means were calculated from the frication noise of productions of /s/ and /$/. Results showed that the children with CIs produced less contrast between /s/ and /$/ than normally hearing children of the same chronological age and normally hearing children with the same duration of auditory experience due to production of /s/ with spectral peaks and means at lower frequencies. The results indicate that there may be differences between the speech sounds produced by children with CIs and their normally hearing peers even for sounds that adults judge as correct.

Section: Introductionmentioning

confidence: 92%

Production of contrast between sibilant fricatives by children with cochlear implants

Todd¹,

Edwards²,

Litovsky³

2011

“…Yet, a number of studies, using only static spectral measures, have sought to characterize the development of a child's productive knowledge of how a phonological sibilant contrast is implemented phonetically (e.g., Fox and Nissen, 2005;Li, 2012;Li et al, 2009;McGowan and Nittrouer, 1988;Nissen and Fox, 2005;Nittrouer et al, 1989;Romeo et al, 2013). Since the spectral patterns that must be acquired and produced by a language learner are dynamic in nature, the view of acquisition provided by static measures is likely incomplete.…”

Section: Implications Of the Current Studymentioning

confidence: 99%

Spectral dynamics of sibilant fricatives are contrastive and language specific

Reidy

2016

Previous research has extensively investigated the spectral properties of sibilant fricatives with little consideration to how these properties vary over time. To investigate such spectro-temporal variation, productions of English /s/ and /S/ and of Japanese /s/ and /ˆ/ in word-initial, prevocalic position were elicited from adult native speakers. The spectral dynamics of these productions were analyzed in terms of a psychoacoustic measure of peak frequency: "peak ERB N number." Peak ERB N number was computed at 17 evenly spaced points across each fricative production. The resulting peak ERB N number trajectories were analyzed with orthogonal polynomial growth-curve models, to determine how peak frequency varied temporally within each fricative. Three analyses compared (1) the English sibilants to each other, (2) the Japanese sibilants to each other, and (3) English /s/ to Japanese /s/. The results indicated that, in both English and Japanese, the sibilant fricatives differ acoustically in terms of both static (i.e., overall level) and dynamic (i.e., shape) aspects of the peak ERB N number trajectories. Furthermore, English /s/ and Japanese /s/ exhibited language-specific differences in the shape, but not overall level, of peak ERB N number trajectories.

“…Parameters that seem to influence identification include gross spectral shapes and peak frequencies ͑Behrens and Blumstein, 1988;Hughes and Halle, 1956;Jongman et al, 2000;Strevens, 1960͒, the first four moments of the spectral energy distribution ͑Forrest et Jongman et al, 2000;Nissen and Fox, 2005;Nittrouer, 1995;Nittrouer et al, 1989;Shadle and Mair, 1996͒, the slopes of lines fitted to spectra in lower and higher frequency regions ͑Evers et Jesus andShadle, 2002͒, formant transition information ͑Jongman et al, 2000;McGowan and Nittrouer, 1988;Nittrouer et al, 1989;Soli, 1981͒, overall amplitude ͑Beh-rens andBlumstein, 1988;Jongman et al, 2000;Stevens, 1971;Strevens, 1960͒, amplitude relative to the neighboring vowel in specific frequency regions ͑Hedrick and Ohde, 1993;Jongman et al, 2000;Stevens, 1985͒, andduration ͑Baum andBlumstein, 1987;Crystal and House, 1988;Jongman, 1989;Jongman et al, 2000͒. Briefly, alveolar fricatives ͑/s/, /z/͒ are characterized by spectral energy ͓above 4 kHz, Hughes and Halle ͑1956͔͒ and major peaks ͓3.5-5 kHz, Behrens and Blumstein ͑1988͒; 6 -8 kHz, Jongman et al ͑2000͔͒ at higher frequencies compared to palato-alveolars ͑/b/, /c/; 2 -4 kHz; ͓Hughes and Halle ͑1956͒, Behrens and Blumstein ͑1988͔͒, which display larger overall relative amplitudes.…”

Section: A Acoustic Properties Of English Fricative Soundsmentioning

confidence: 99%

Acoustic characteristics of clearly spoken English fricatives

Maniwa

Jongman²,

Wade³

2009

169

129

Speakers can adopt a speaking style that allows them to be understood more easily in difficult communication situations, but few studies have examined the acoustic properties of clearly produced consonants in detail. This study attempts to characterize the adaptations in the clear production of American English fricatives in a carefully controlled range of communication situations. Ten female and ten male talkers produced fricatives in vowel-fricative-vowel contexts in both a conversational and a clear style that was elicited by means of simulated recognition errors in feedback received from an interactive computer program. Acoustic measurements were taken for spectral, amplitudinal, and temporal properties known to influence fricative recognition. Results illustrate that ͑1͒ there were consistent overall style effects, several of which ͑consonant duration, spectral peak frequency, and spectral moments͒ were consistent with previous findings and a few ͑notably consonant-to-vowel intensity ratio͒ of which were not; ͑2͒ specific acoustic modifications in clear productions of fricatives were influenced by the nature of the recognition errors that prompted the productions and were consistent with efforts to emphasize potentially misperceived contrasts both within the English fricative inventory and based on feedback from the simulated listener; and ͑3͒ talkers differed widely in the types and magnitude of all modifications.