Relation of second formant trajectories to tongue kinematics

Thompson, Austin; Kim, Yunjung

doi:10.1121/1.5099163

Cited by 13 publications

(15 citation statements)

References 23 publications

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“…Thus, F2 extent during this transition provides an index of the distinctiveness between the initial and final sounds of the diphthong, and relates to the clarity with which the diphthong is perceived. 41,42 In studies of adult speakers, F2 slope has been shown to correlate with kinematic measures of lingual speed in both healthy adults and speakers with dysarthria 8,36,43 and F2 extent has been shown to correlate with tongue displacement, 43 suggesting moderate-to-strong relations between these articulatory and acoustic parameters. Less is known about the strength of these relations in children; however, given the nonlinear changes in formants and the refinement of articulatory movements throughout childhood and adolescence, it is possible that articulatory-acoustic relations in children could differ from adults.…”

Section: B Articulatory-acoustic Relationsmentioning

confidence: 98%

“…34,35 Prior work has shown variability in the strength of articulatory-acoustic relations in adult speakers with and without motor speech disorders. 2,8,[36][37][38] Second formant (F2) trajectories are of particular interest because F2 is sensitive to changes in tongue movement, and the extent and slope of F2 trajectories relate to speech intelligibility for speakers with dysarthria. 12,39,40 F2 trajectories are often studied in the context of diphthongs, which involve large F2 transitions between the beginning and end of the vowel.…”

Section: B Articulatory-acoustic Relationsmentioning

confidence: 99%

“…3,5,6 In healthy adult speakers, rate and prosodic manipulation studies have yielded important information about the relations between articulatory adjustments and speech acoustics across a range of speaking styles. 2,7,8 Across studies, results have shown that prosodic manipulations not only induce changes in the target prosodic dimension (e.g., slowed rate, increased loudness) but also increase acoustic distinctiveness of speech sounds. 3,9,10 This is important because acoustic distinctiveness is strongly related to speech intelligibility in speakers with dysarthria.…”

Section: Introductionmentioning

confidence: 99%

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Effect of prosodic manipulation on articulatory kinematics and second formant trajectories in children

Allison

Salehi

Green

2020

The Journal of the Acoustical Society of America

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This study investigated effects of rate reduction and emphatic stress cues on second formant (F2) trajectories and articulatory movements during diphthong production in 11 typically developing school-aged children. F2 extent increased in slow and emphatic stress conditions, and tongue and jaw displacement increased in the emphatic stress condition compared to habitual speech. Tongue displacement significantly predicted F2 extent across speaking conditions. Results suggest that slow rate and emphatic stress cues induce articulatory and acoustic changes in children that may enhance clarity of the acoustic signal. Potential clinical implications for improving speech in children with dysarthria are discussed. V

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Section: B Articulatory-acoustic Relationsmentioning

confidence: 98%

Section: B Articulatory-acoustic Relationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Effect of prosodic manipulation on articulatory kinematics and second formant trajectories in children

Allison

Salehi

Green

2020

The Journal of the Acoustical Society of America

View full text Add to dashboard Cite

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“…The reference sensors can alternatively be prepared and placed on a pair of goggles, on the frame of a pair of plastic glasses, or on a headband (e.g., Ji, Berry, & Johnson, 2013;Mefferd, 2019;Thompson & Kim, 2019;Kearney et al, 2018). The Appendix shows additional information regarding individual researchers' strategies to place reference sensors.…”

Section: Preparation and Adhesionmentioning

confidence: 99%

A review of data collection practices using electromagnetic articulography

Rebernik

Jacobi

Jonkers

et al. 2021

Laboratory Phonology: Journal of the Association for Laboratory Phonology

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This paper reviews data collection practices in electromagnetic articulography (EMA) studies, with a focus on sensor placement. We first introduce electromagnetic articulography as a method. We then focus on existing data collection practices. Our overview is based on a literature review of 905 publications from a large variety of journals and conferences, identified through a systematic keyword search in Google Scholar. The review shows that experimental designs vary greatly, which in turn may limit researchers' ability to compare results across studies. Finally, we describe an EMA data collection procedure that includes an articulatory-driven strategy for determining where to position sensors on the tongue without causing discomfort to the participant. We also evaluate three approaches for preparing (NDI Wave) EMA sensors reported in the literature with respect to the duration the sensors remain attached to the tongue: 1) attaching out-of-thebox sensors, 2) attaching sensors coated in latex, and 3) attaching sensors coated in latex with an additional latex flap. Results indicate no clear general effect of sensor preparation type on adhesion duration. A subsequent exploratory analysis reveals that sensors with the additional flap tend to adhere for shorter times than the other two types, but that this pattern is inverted for the most posterior tongue sensor.

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“…It is a quantitative acoustic measurement based on connected speech (word or sentence level). The F2 slope changes almost in response to the back and forth movements of the tongue [ 15 ], and frequency trajectories, such as diphthongs, move up and down relatively rapidly. Therefore, the F2 slope is speculated to reflect the movement speed of the tongue during articulation.…”

Section: Introductionmentioning

confidence: 99%

Relationships between maximum tongue pressure and second formant transition in speakers with different types of dysarthria

Tamura

Tanaka

Watanabe³

et al. 2022

PLoS ONE

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The effects of muscle weakness on speech are currently not fully known. We investigated the relationships between maximum tongue pressure and second formant transition in adults with different types of dysarthria. It focused on the slope in the second formant transition because it reflects the tongue velocity during articulation. Sixty-three Japanese speakers with dysarthria (median age, 68 years; interquartile range, 58–77 years; 44 men and 19 women) admitted to acute and convalescent hospitals were included. Thirty neurologically normal speakers aged 19–85 years (median age, 22 years; interquartile range, 21.0–23.8 years; 14 men and 16 women) were also included. The relationship between the maximum tongue pressure and speech function was evaluated using correlation analysis in the dysarthria group. Speech intelligibility, the oral diadochokinesis rate, and the second formant slope were based on the impaired speech index. More than half of the speakers had mild to moderate dysarthria. Speakers with dysarthria showed significantly lower maximum tongue pressure, speech intelligibility, oral diadochokinesis rate, and second formant slope than neurologically normal speakers. Only the second formant slope was significantly correlated with the maximum tongue pressure (r = 0.368, p = 0.003). The relationship between the second formant slope and maximum tongue pressure showed a similar correlation in the analysis of subgroups divided by sex. The oral diadochokinesis rate, which is related to the speed of articulation, is affected by voice on/off, mandibular opening/closing, and range of motion. In contrast, the second formant slope was less affected by these factors. These results suggest that the maximum isometric tongue strength is associated with tongue movement speed during articulation.

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Relation of second formant trajectories to tongue kinematics

Cited by 13 publications

References 23 publications

Effect of prosodic manipulation on articulatory kinematics and second formant trajectories in children

Effect of prosodic manipulation on articulatory kinematics and second formant trajectories in children

A review of data collection practices using electromagnetic articulography

Relationships between maximum tongue pressure and second formant transition in speakers with different types of dysarthria

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