Your search keyword '"Bunton, Kate"' showing total 16 results

1. The relation of velopharyngeal coupling area and vocal tract scaling to identification of stop-nasal cognates.

Author

Story BH and Bunton K

Subjects

Adult, Female, Male, Humans, Child, Preschool, Acoustics, Language, Nose, Speech, Larynx

Abstract

The purpose of this study was to determine whether the threshold of velopharyngeal (VP) coupling area at which listeners switch from identifying a consonant as a stop to a nasal in North American English was different for speech produced by a model based on an adult male, an adult female, and a 4-year-old child. V1CV2 stimuli were generated with a speech production model that encodes phonetic segments as relative acoustic targets imposed on an underlying vocal tract and laryngeal structure that can be scaled according to sex and age. Each V1CV2 was synthesized with a set of VP coupling functions whose maximum area ranged from 0 to 0.1 cm2. Results showed that scaling the vocal tract and vocal folds had essentially no effect on the VP coupling area at which listener identification shifted from stop to nasal. The range of coupling areas at which the crossover occurred was 0.037-0.049 cm2 for the male model, 0.040-0.055 cm2 for the female model, and 0.039-0.052 cm2 for the 4-year-old child model, and overall mean was 0.044 cm2. Calculations of band limited peak nasalance indicated that 85% peak nasalance during the consonant was well aligned with listener responses., (© 2023 Acoustical Society of America.)

Published

2023

2. The relation of velopharyngeal coupling area to the identification of stop versus nasal consonants in North American English based on speech generated by acoustically driven vocal tract modulations.

Author

Story BH and Bunton K

Subjects

Female, Humans, Male, North America, Phonetics, Speech Production Measurement, Speech, Speech Perception

Abstract

The purpose of this study was to determine the threshold of velopharyngeal coupling area at which listeners switch from identifying a consonant as a stop to a nasal in North American English, based on V 1 CV 2 stimuli generated with a speech production model that encodes phonetic segments as relative acoustic targets. Each V 1 CV 2 was synthesized with a set of velopharyngeal coupling functions whose area ranged from 0 to 0.1 cm 2 . Results show that consonants were identified by listeners as a stop when the coupling area was less than 0.035-0.057 cm 2 , depending on place of articulation and final vowel. The smallest coupling area (0.035 cm 2 ) at which the stop-to-nasal switch occurred was found for an alveolar consonant in the /ɑCi/ context, whereas the largest (0.057 cm 2 ) was for a bilabial in /ɑCɑ/. For each stimulus, the balance of oral versus nasal acoustic energy was characterized by the peak nasalance during the consonant. Stimuli with peak nasalance below 40% were mostly identified by listeners as stops, whereas those above 40% were identified as nasals. This study was intended to be a precursor to further investigations using the same model but scaled to represent the developing speech production system of male and female talkers.

Published

2021

3. A model of speech production based on the acoustic relativity of the vocal tract.

Author

Story BH and Bunton K

Subjects

Acoustics, Humans, Jaw physiology, Larynx physiology, Lip physiology, Male, Tongue physiology, Models, Biological, Speech physiology, Speech Production Measurement

Abstract

A model is described in which the effects of articulatory movements to produce speech are generated by specifying relative acoustic events along a time axis. These events consist of directional changes of the vocal tract resonance frequencies that, when associated with a temporal event function, are transformed via acoustic sensitivity functions, into time-varying modulations of the vocal tract shape. Because the time course of the events may be considerably overlapped in time, coarticulatory effects are automatically generated. Production of sentence-level speech with the model is demonstrated with audio samples and vocal tract animations.

Published

2019

4. Auditory-Perceptual Rating of Connected Speech in Aphasia.

Author

Casilio M, Rising K, Beeson PM, Bunton K, and Wilson SM

Subjects

Aged, Aphasia psychology, Feasibility Studies, Female, Humans, Male, Middle Aged, Observer Variation, Predictive Value of Tests, Reproducibility of Results, Aphasia diagnosis, Judgment, Speech, Speech Perception, Speech Production Measurement, Speech-Language Pathology methods, Voice Quality

Abstract

Purpose Auditory-perceptual assessment, in which trained listeners rate a large number of perceptual features of speech samples, is the gold standard for the differential diagnosis of motor speech disorders. The goal of this study was to investigate the feasibility of applying a similar, formalized auditory-perceptual approach to the assessment of language deficits in connected speech samples from individuals with aphasia. Method Twenty-seven common features of connected speech in aphasia were defined, each of which was rated on a 5-point scale. Three experienced researchers evaluated 24 connected speech samples from the AphasiaBank database, and 12 student clinicians evaluated subsets of 8 speech samples each. We calculated interrater reliability for each group of raters and investigated the validity of the auditory-perceptual approach by comparing feature ratings to related quantitative measures derived from transcripts and clinical measures, and by examining patterns of feature co-occurrence. Results Most features were rated with good-to-excellent interrater reliability by researchers and student clinicians. Most features demonstrated strong concurrent validity with respect to quantitative connected speech measures computed from AphasiaBank transcripts and/or clinical aphasia battery subscores. Factor analysis showed that 4 underlying factors, which we labeled Paraphasia, Logopenia, Agrammatism, and Motor Speech, accounted for 79% of the variance in connected speech profiles. Examination of individual patients' factor scores revealed striking diversity among individuals classified with a given aphasia type. Conclusion Auditory-perceptual rating of connected speech in aphasia shows potential to be a comprehensive, efficient, reliable, and valid approach for characterizing connected speech in aphasia.

Published

2019

5. An age-dependent vocal tract model for males and females based on anatomic measurements.

Author

Story BH, Vorperian HK, Bunton K, and Durtschi RB

Subjects

Adult, Age Factors, Child, Child, Preschool, Female, Humans, Infant, Infant, Newborn, Male, Sex Factors, Vocal Cords diagnostic imaging, Child Development physiology, Sex Characteristics, Speech physiology, Vocal Cords anatomy & histology, Vocal Cords physiology

Abstract

The purpose of this study was to take a first step toward constructing a developmental and sex-specific version of a parametric vocal tract area function model representative of male and female vocal tracts ranging in age from infancy to 12 yrs, as well as adults. Anatomic measurements collected from a large imaging database of male and female children and adults provided the dataset from which length warping and cross-dimension scaling functions were derived, and applied to the adult-based vocal tract model to project it backward along an age continuum. The resulting model was assessed qualitatively by projecting hypothetical vocal tract shapes onto midsagittal images from the cohort of children, and quantitatively by comparison of formant frequencies produced by the model to those reported in the literature. An additional validation of modeled vocal tract shapes was made possible by comparison to cross-sectional area measurements obtained for children and adults using acoustic pharyngometry. This initial attempt to generate a sex-specific developmental vocal tract model paves a path to study the relation of vocal tract dimensions to documented prepubertal acoustic differences.

Published

2018

6. Development of Velopharyngeal Closure for Vocalization During the First 2 Years of Life.

Author

Bunton K and Hoit JD

Subjects

Child, Preschool, Female, Humans, Infant, Longitudinal Studies, Male, Pharynx physiology, Phonetics, Speech Acoustics, Speech Production Measurement, Child Language, Pharynx growth & development, Speech physiology

Abstract

Purpose: The vocalizations of young infants often sound nasalized, suggesting that the velopharynx is open during the 1st few months of life. Whereas acoustic and perceptual studies seemed to support the idea that the velopharynx closes for vocalization by about 4 months of age, an aeromechanical study contradicted this (Thom, Hoit, Hixon, & Smith, 2006). Thus, the current large-scale investigation was undertaken to determine when the velopharynx closes for speech production by following infants during their first 2 years of life., Method: This longitudinal study used nasal ram pressure to determine the status of the velopharynx (open or closed) during spontaneous speech production in 92 participants (46 male, 46 female) studied monthly from age 4 to 24 months., Results: The velopharynx was closed during at least 90% of the utterances by 19 months, though there was substantial variability across participants. When considered by sound category, the velopharynx was closed from most to least often during production of oral obstruents, approximants, vowels (only), and glottal obstruents. No sex effects were observed., Conclusion: Velopharyngeal closure for spontaneous speech production can be considered complete by 19 months, but closure occurs earlier for speech sounds with higher oral pressure demands.

Published

2018

7. A Modeling Study of the Effects of Vocal Tract Movement Duration and Magnitude on the F2 Trajectory in CV Words.

Author

Neely KD, Bunton K, and Story BH

Subjects

Adult, Biomechanical Phenomena, Child, Female, Humans, Male, Phonetics, Computer Simulation, Models, Biological, Movement physiology, Speech physiology, Vocal Cords physiology

Abstract

Purpose: This study used a computational vocal tract model to investigate the relationship of diphthong duration and vocal tract movement magnitude to measures of the F2 trajectory in CV words., Method: Three words (bough, boy, and buy) were simulated on the basis of an adult female vocal tract model, in which the model parameters were estimated from audio recordings of a female talker. Model parameters were then modified to generate 35 simulations of each word corresponding to 7 different durations and 5 movement magnitude settings. In addition, these simulations were repeated with vocal tract lengths representative of an adult male and an approximately 6-year-old child., Results: On the basis of univariate analysis, measures of frequency predicted changes in magnitude, and temporal measures predicted changes in speaking rate consistent with the hypothesis. The combined effects of duration and magnitude showed that F2 was more sensitive to changes in magnitude at shorter word durations compared with longer word durations. This finding held across words and vocal tract length., Conclusions: Results suggest that there is an interaction between duration and magnitude that affects the slope of the F2 trajectory. The next step is to relate kinematics to F2 trajectory output using real speakers.

Published

2016

8. Acoustic and perceptual effects of left-right laryngeal asymmetries based on computational modeling.

Author

Samlan RA, Story BH, Lotto AJ, and Bunton K

Subjects

Adolescent, Adult, Aged, Computer Simulation, Female, Humans, Male, Middle Aged, Signal-To-Noise Ratio, Speech Acoustics, Vibration, Vocal Cords physiopathology, Young Adult, Larynx physiopathology, Speech physiology, Speech Perception physiology, Vocal Cord Paralysis physiopathology

Abstract

Purpose: Computational modeling was used to examine the consequences of 5 different laryngeal asymmetries on acoustic and perceptual measures of vocal function., Method: A kinematic vocal fold model was used to impose 5 laryngeal asymmetries: adduction, edge bulging, nodal point ratio, amplitude of vibration, and starting phase. Thirty /a/ and /ɪ/ vowels were generated for each asymmetry and analyzed acoustically using cepstral peak prominence (CPP), harmonics-to-noise ratio (HNR), and 3 measures of spectral slope (H1*-H2*, B0-B1, and B0-B2). Twenty listeners rated voice quality for a subset of the productions., Results: Increasingly asymmetric adduction, bulging, and nodal point ratio explained significant variance in perceptual rating (R2 = .05, p < .001). The same factors resulted in generally decreasing CPP, HNR, and B0-B2 and in increasing B0-B1. Of the acoustic measures, only CPP explained significant variance in perceived quality (R2 = .14, p < .001). Increasingly asymmetric amplitude of vibration or starting phase minimally altered vocal function or voice quality., Conclusion: Asymmetries of adduction, bulging, and nodal point ratio drove acoustic measures and perception in the current study, whereas asymmetric amplitude of vibration and starting phase demonstrated minimal influence on the acoustic signal or voice quality.

Published

2014

9. A simple technique for determining velopharyngeal status during speech production.

Author

Bunton K, Hoit JD, and Gallagher K

Subjects

Amyotrophic Lateral Sclerosis complications, Catheters, Child, Goldenhar Syndrome surgery, Humans, Infant, Male, Middle Aged, Nasal Cavity, Postoperative Complications diagnosis, Pressure, Velopharyngeal Insufficiency etiology, Young Adult, Diagnostic Techniques and Procedures instrumentation, Speech, Velopharyngeal Insufficiency diagnosis, Velopharyngeal Insufficiency physiopathology, Velopharyngeal Sphincter physiopathology

Abstract

Clinical evaluation of velopharyngeal function relies heavily on auditory perceptual judgments that can be supported by instrumental examination of the velopharyngeal valve. Many of the current instrumental techniques are difficult to interpret, expensive, and/or unavailable to clinicians. Proposed in this report is a minimally invasive and inexpensive approach to evaluating velopharyngeal function that has been used successfully in our laboratory for several potentially difficult-to-test clients. The technique is an aeromechanical approach that involves the sensing of nasal ram pressure (N-RamP), a local pressure sensed at the anterior nares, using a two-pronged nasal cannula. By monitoring the N-RamP signal, it is possible to determine the status of the velopharyngeal port (open or closed) during speech production. Four case examples are presented to support its clinical value., (© Thieme Medical Publishers.)

Published

2011

10. Speech versus nonspeech: different tasks, different neural organization.

Author

Bunton K

Subjects

Humans, Learning physiology, Mouth diagnostic imaging, Positron-Emission Tomography, Speech Production Measurement, Tongue diagnostic imaging, Tongue physiology, Motor Activity physiology, Mouth physiology, Speech physiology

Abstract

This article reviews the extant studies of the relation of oromotor nonspeech activities to speech production. The relevancy of nonspeech oral motor behaviors to speech motor performance in assessment and treatment is challenged on several grounds. First, contemporary motor theory suggests that movement control is task specific. In other words, it is tied to the unique goals, sources of information, and characteristics of varying motor acts. Documented differences in movement characteristics for speech production versus nonspeech oral motor tasks support this claim. Second, advantages of training nonspeech oral motor tasks versus training speech production are not supported by current principles of motor learning and neural plasticity. Empirical data supports experience-specific training. Finally, functional imaging studies document differences in activation patterns for speech compared with nonspeech oral motor tasks in neurologically healthy individuals.

Published

2008

11. Influence of Visual Information on the Intelligibility of Dysarthric Speech

Author

Keintz, Connie K., Bunton, Kate, and Hoit, Jeannette D.

Abstract

Purpose: To examine the influence of visual information on speech intelligibility for a group of speakers with dysarthria associated with Parkinson's disease. Method: Eight speakers with Parkinson's disease and dysarthria were recorded while they read sentences. Speakers performed a concurrent manual task to facilitate typical speech production. Twenty listeners (10 experienced and 10 inexperienced) transcribed sentences while watching and listening to videotapes of the speakers (auditory-visual mode) and while only listening to the speakers (auditory-only mode). Results: Significant main effects were found for both presentation mode and speaker. Auditory-visual scores were significantly higher than auditory-only scores for the 3 speakers with the lowest intelligibility scores. No significant difference was found between the 2 listener groups. Conclusions: The findings suggest that clinicians should consider both auditory-visual and auditory-only intelligibility measures in speakers with Parkinson's disease to determine the most effective strategies aimed at evaluation and treatment of speech intelligibility decrements. (Contains 2 tables and 1 figure.)

Published

2007

12. Vowel space density as an indicator of speech performance.

Author

Story, Brad H. and Bunton, Kate

Subjects

*VOWELS, *SPEECH, *AUDIO frequency, *DENSITY, *SOUND recording & reproducing, *SPACE

Abstract

The purpose of this study was to develop a method for visualizing and assessing the characteristics of vowel production by measuring the local density of normalized F1 and F2 formant frequencies. The result is a three-dimensional plot called the vowel space density (VSD) and indicates the regions in the vowel space most heavily used by a talker during speech production. The area of a convex hull enclosing the vowel space at specific threshold density values was proposed as a means of quantifying the VSD. [ABSTRACT FROM AUTHOR]

Published

2017

13. A Biomechanical Modeling Study of the Effects of the Orbicularis Oris Muscle and Jaw Posture on Lip Shape.

Author

Stavness, Ian, Nazari, Mohammad Ali, Perrier, Pascal, Demolin, Didier, Payan, Yohan, Kreiman, Jody, and Bunton, Kate

Subjects

TONGUE physiology, JAW physiology, FACIAL muscles, LIPS, BIOMECHANICS, COMPUTER software, EXPERIMENTAL design, POSTURE, SPEECH, TOMOGRAPHY, PHYSIOLOGY, ANATOMY

Abstract

Purpose: The authors’ general aim is to use biomechanical models of speech articulators to explore how possible variations in anatomical structure contribute to differences in articulatory strategies and phone systems across human populations. Specifically, they investigated 2 issues: (a) the link between lip muscle anatomy and variability in lip gestures and (b) the constraints of coupled lip/jaw biomechanics on jaw posture in labial sounds. Method: The authors used a model coupling the jaw, tongue, and face. First, the influence of the orbicularis oris (OO) anatomical implementation was analyzed by assessing how changes in depth (from epidermis to the skull) and peripheralness (proximity to the lip horn center) affected lip shaping. Second, the capability of the lip/jaw system to generate protrusion and rounding, or labial closure, was evaluated for different jaw heights. Results: Results showed that a peripheral and moderately deep OO implementation is most appropriate for protrusion and rounding; a superficial implementation facilitates closure; protrusion and rounding require a high jaw position; and closure is achievable for various jaw heights. Conclusions:Models provide objective information regarding possible links between anatomical and speech production variability across humans. Comparisons with experimental data will illustrate how motor control and cultural factors cope with these constraints. [ABSTRACT FROM AUTHOR]

Published

2013

14. Relation of Vocal Tract Shape, Formant Transitions, and Stop Consonant Identification.

Author

Story, Brad H. and Bunton, Kate

Subjects

*COMPUTER simulation, *KINEMATICS, *MATHEMATICAL models, *INDUSTRIAL psychology, *RESEARCH funding, *SENSORY stimulation, *SPEECH, *VOCAL cords, *THEORY

Abstract

Purpose: The present study was designed to investigate the relation of formant transitions to place-of-articulation for stop consonants. A speech production model was used to generate simulated utterances containing voiced stop consonants, and a perceptual experiment was performed to test their identification by listeners. Method: Based on a model of the vocal tract shape, a theoretical basis for reducing highly variable formant transitions to more invariant formant deflection patterns as a function of constriction location was proposed. A speech production model was used to simulate vowel—consonant—vowel (VCV) utterances for 3 underlying vowel—vowel contexts and for which the constriction location was incrementally moved from the lips toward the velar part of the vocal tract. These simulated VCVs were presented to listeners who were asked to identify the consonant. Results: Listener responses indicated that phonetic boundaries were well aligned with points along the vocal tract length where there was a shift in the deflection polarity of either the 2nd or 3rd formant. Conclusions: This study demonstrated that regions of the vocal tract exist that, when constricted, shift the formant frequencies in a predictable direction. Based on a perceptual experiment, the boundaries of these acoustically defined regions were shown to coincide with phonetic categories for stop consonants. [ABSTRACT FROM AUTHOR]

Published

2010

15. Identification of synthetic vowels based on selected vocal tract area functions.

Author

Bunton, Kate and Story, Brad H.

Subjects

*PHONETICS, *MAGNETIC resonance imaging, *VOCAL tract, *SOUNDS, *SPEECH, *HEARING, *HUMAN sounds

Abstract

The purpose of this study was to determine the degree to which synthetic vowel samples based on previously reported vocal tract area functions of eight speakers could be accurately identified by listeners. Vowels were synthesized with a wave-reflection type of vocal tract model coupled to a voice source. A particular vowel was generated by specifying an area function that had been derived from previous magnetic resonance imaging based measurements. The vowel samples were presented to ten listeners in a forced choice paradigm in which they were asked to identify the vowel. Results indicated that the vowels [i], [æ], and [u] were identified most accurately for all of speakers. The identification errors of the other vowels were typically due to confusions with adjacent vowels. [ABSTRACT FROM AUTHOR]

Published

2009

16. Listener Agreement for Auditory-Perceptual Ratings of Dysarthria.

Author

Bunton, Kate, Kent, Raymond D., Duffy, Joseph R., Rosenbek, John C., and Kent, Jane F.

Subjects

*ARTICULATION disorders, *SPEECH disorders, *SPEECH perception, *AUDITORY perception, *SPEECH, *HEARING

Abstract

Purpose: Darley, Aronson, and Brown (1969a, 1969b) detailed methods and results of auditory-perceptual assessment for speakers with dysarthrias of varying etiology. They reported adequate listener reliability for use of the rating system as a tool for differential diagnosis, but several more recent studies have raised concerns about listener reliability using this approach. Method: In the present study, the authors examined intrarater and interrater agreement for perceptual ratings of 47 speakers with various dysarthria types by 2 listener groups (inexperienced and experienced). The entire set of perceptual features proposed by Darley et al. was rated based on a 40-s conversational speech sample. Results: No differences in levels of agreement were found between the listener groups. Agreement was within 1 scale value or better for 67% of the pairwise comparisons. Levels of agreement were lower when the average rating fell in the mid-range of the scale compared with samples that had an average rating near either of the scale endpoints; agreement was above chance level. No significant differences in agreement were found between the perceptual features. Discussion: The levels of listener agreement that were found indicate that auditory-perceptual ratings show promise during clinical assessment for identifying salient features of dysarthria for speakers with various etiologies. [ABSTRACT FROM AUTHOR]

Published

2007