Acoustic characteristics of speech-language pathologists related to their subjective vocal fatigue*
언어재활사의 주관적 음성피로도와 관련된 음향적 특성*

Hyewon Jeon, Jiyoun Kim, Cheoljae Seong
2022 Phonetics and Speech Sciences  
In addition to administering a questionnaire (J-survey), which questions individuals on subjective vocal fatigue, voice samples were collected before and after speech-language pathology sessions from 50 female speech-language pathologists in their 20s and 30s in the Daejeon and Chungnam areas. We identified significant differences in Korean Vocal Fatigue Index scores between the fatigue and non-fatigue groups, with the most prominent differences in sections one and two. Regarding acoustic
more » ... ic characteristics, both groups showed a pattern in which low-frequency band energy was relatively low, and high-frequency band energy was increased after the treatment sessions. This trend was well reflected in the low-to-high ratio of vowels, slope LTAS, energy in the third formant, and energy in the 4,000-8,000 Hz range. A difference between the groups was observed only in the vowel energy of the low-frequency band (0-4,000 Hz) before treatment, with the non-fatigue group having a higher value than the fatigue group. This characteristic could be interpreted as a result of voice abuse and higher muscle tonus caused by long-term voice work. The perturbation parameter and shimmer local was lowered in the non-fatigue group after treatment, and the noise-to-harmonics ratio (NHR) was lowered in both groups following treatment. The decrease in NHR and the fall of shimmer local could be attributed to vocal cord hypertension, but it could be concluded that the effective voice use of speech-language pathologists also contributed to this effect, especially in the non-fatigue group. In the case of the non-fatigue group, the rhamonics-to-noise ratio increased significantly after treatment, indicating that the harmonic structure was more stable after treatment. Keywords: vocal fatigue, Korean Vocal Fatigue Index (K-VFI), low band (0-4,000 Hz), high band (4,000-8,000 Hz), noise to harmonics ratio (NHR), rhamonics to noise ratio (RNR), low to high ratio (LH-ratio)
doi:10.13064/ksss.2022.14.3.087 fatcat:cu66k6fb6ngpnkkad4fccttfka