scholarly journals Changes to respiratory mechanisms during speech as a result of different cues to increase loudness

2005 ◽  
Vol 98 (6) ◽  
pp. 2177-2184 ◽  
Author(s):  
Jessica E. Huber ◽  
Bharath Chandrasekaran ◽  
John J. Wolstencroft
Keyword(s):  
Young Adults ◽  
Respiratory System ◽  
Sound Pressure Level ◽  
Lung Volume ◽  
Neural Control ◽  
Sound Pressure ◽  
Speech Rate ◽  
Muscle Tension ◽  
Pressure Level ◽  
Expiratory Muscle

The purpose of the present study was to determine whether different cues to increase loudness in speech result in different internal targets (or goals) for respiratory movement and whether the neural control of the respiratory system is sensitive to changes in the speaker's internal loudness target. This study examined respiratory mechanisms during speech in 30 young adults at comfortable level and increased loudness levels. Increased loudness was elicited using three methods: asking subjects to target a specific sound pressure level, asking subjects to speak twice as loud as comfortable, and asking subjects to speak in noise. All three loud conditions resulted in similar increases in sound pressure level . However, the respiratory mechanisms used to support the increase in loudness differed significantly depending on how the louder speech was elicited. When asked to target at a particular sound pressure level, subjects used a mechanism of increasing the lung volume at which speech was initiated to take advantage of higher recoil pressures. When asked to speak twice as loud as comfortable, subjects increased expiratory muscle tension, for the most part, to increase the pressure for speech. However, in the most natural of the elicitation methods, speaking in noise, the subjects used a combined respiratory approach, using both increased recoil pressures and increased expiratory muscle tension. In noise, an additional target, possibly improving intelligibility of speech, was reflected in the slowing of speech rate and in larger volume excursions even though the speakers were producing the same number of syllables.

Control of Vocal Loudness in Young and Old Adults

2001 ◽  
Vol 44 (2) ◽  
pp. 297-305 ◽  
Author(s):  
Kristin K. Baker ◽  
Lorraine Olson Ramig ◽  
Shimon Sapir ◽  
Erich S. Luschei ◽  
Marshall E. Smith
Keyword(s):  
Respiratory System ◽  
Sound Pressure Level ◽  
Sound Pressure ◽  
Age Groups ◽  
Pressure Level ◽  
Emg Activity ◽  
Old Adults ◽  
Subglottal Pressure ◽  
Young Subjects ◽  
Laryngeal Emg

This study examined the effect of aging on respiratory and laryngeal mechanisms involved in vocal loudness control. Simultaneous measures of subglottal pressure and electromyographic (EMG) activity from the thyroarytenoid (TA), lateral cricoarytenoid (LCA), and cricothyroid (CT) muscles were investigated in young and old individuals while they attempted to phonate at three loudness levels, "soft," "comfortable," and "loud." Voice sound pressure level (SPL) and fundamental frequency (F 0 ) measures were also obtained. Across loudness conditions, subglottal pressure levels were similar for both age groups. Laryngeal EMG measures tended to be lower and more variable for old compared with young individuals. These differences were most apparent for the TA muscle. Finally, across the three loudness conditions, the old individuals generated SPLs that were lower overall than those produced by the young individuals but modulated loudness levels in a manner similar to that of the young subjects. These findings suggest that the laryngeal mechanism may be more affected than the respiratory system in these old individuals and that these changes may affect vocal loudness levels.

Regulatory Mechanism of Voice Intensity Variation

1964 ◽  
Vol 7 (1) ◽  
pp. 17-29 ◽  
Author(s):  
Nobuhiko Isshiki
Keyword(s):  
Flow Rate ◽  
Sound Pressure Level ◽  
Sound Pressure ◽  
Low Frequency ◽  
Intensity Variation ◽  
Pressure Level ◽  
Expiratory Muscle ◽  
Laryngeal Control ◽  
The Relationship ◽  
The Voice

The relationship between the voice intensity (sound pressure level), the subglottic pressure, the air flow rate, and the glottal resistance was investigated. Simultaneous recordings were made of the sound pressure level of voice, the subglottic pressure, the flow rate, and the volume of air utilized during phonation. The glottal resistance, the subglottic power, and the efficiency of voice were calculated from the data. It was found that on very low frequency phonation the flow rate remained almost unchanged or even slightly decreased with the increase in voice intensity while the glottal resistance showed a tendency to augment with increased voice intensity. In contrast to this, the flow rate on high frequency phonation was found to increase greatly, while the glottal resistance remained almost unchanged as the voice intensity increased. On the basis of the data it was concluded that at very low pitches, the glottal resistance is dominant in controlling intensity (laryngeal control), becoming less so as the pitch is raised, until at extremely high pitch the intensity is controlled almost entirely by the flow rate (expiratory muscle control).

scholarly journals A Technology for Increasing the Functional Reserves of the Body Based on Bioacoustic Stimulation of the Respiratory System

Biomeditsina ◽  
2021 ◽  
Vol 17 (3) ◽  
pp. 39-47
Author(s):  
S. P. Dragan ◽  
S. M. Razinkin ◽  
G. G. Erofeev
Keyword(s):  
Respiratory System ◽  
Sound Pressure Level ◽  
Sound Pressure ◽  
Pressure Level ◽  
The Body ◽  
Control Group ◽  
Breath Hold ◽  
Exposure Group ◽  
Functional Reserves ◽  
Stimulation Of

A technology based on the effect of low-frequency vibrations on the respiratory system is a promising approach to increasing the functional reserves of the human body. To implement such a technology, it is necessary to justify the optimal modes of bioacoustic stimulation of the respiratory system. Therefore, the aim of the study was a theoretical and experimental justification of the technology to increase the functional reserves of the body based on bioacoustic stimulation of the respiratory system. Acoustic impedance was measured on a polyharmonic sound signal in the frequency range from 3 Hz to 51 Hz with a step of 3 Hz in all three phases of respiration: a full breath with a breath hold, a deep breath with a breath hold and free nasal surface breathing without a delay. After determining the resonant frequencies of the respiratory tract for two weeks, six sessions of bioacoustic stimulation were conducted on a group of 20 testers, including placebo exposure. In the exposure group, the sound pressure level was 130 dB, and in the control group - 60 dB, which is below the audibility threshold at these frequencies. Six-fold exposure to a scanning tone signal with a sound pressure level of 130 dB led to an increase in the resonant frequency of the respiratory system, a decrease in the absorption coefficient of sound vibrations by the respiratory system, and an increase in the resistance of the respiratory system to the sound wave. These effects can be explained by the fact that, as a result of exposure, reserve alveoli were discovered and the cross-sectional area of the alveolar passages and respiratory bronchioles increased. An analysis of the results of experiments in both groups in the dynamics of six stimulation sessions suggests that their values for the control group of testers practically did not change at all periods of observation. At the same time, similar indicators in the exposure group have a significant difference from the background values. It was shown that, in order to increase the functional reserves of the body, two bioacoustic stimulation treatments can be sufficient.

The Effect of Lung Volume on Selected Phonatory and Articulatory Variables

1998 ◽  
Vol 41 (3) ◽  
pp. 491-502 ◽  
Author(s):  
Christopher Dromey ◽  
Lorraine Olson Ramig
Keyword(s):  
Lung Volume ◽  
Neural Control ◽  
Sound Pressure ◽  
Pressure Level ◽  
Sentence Production ◽  
Reference Condition ◽  
Upper Lip ◽  
Lower Lip ◽  
Kinematic Behavior ◽  
Kinematic Measures

The purpose of the study was to examine the effects of manipulating lung volume (LV) on phonatory and articulatory kinematic behavior during sentence production in healthy adults. Five men and five women repeated the sentence "I sell a sapapple again" under five LV conditions. These included (1) speaking normally, (2) speaking after exhaling most of the air from the lungs, (3) speaking at end expiratory level (EEL), (4) speaking after a maximal inhalation, and (5) speaking after a maximal inhalation while attempting to maintain as normal a mode of speech as possible. From a multichannel recording, measures were made of LV, sound pressure level (SPL), fundamental frequency (F 0 ) and semitone standard deviation (STSD), and upper and lower lip displacements and peak velocities. When compared with the reference condition, the sentence was spoken significantly more quickly at the lowest LV. SPL increased significantly for the high LV condition, as did the women's F 0 and STSD. Upper lip displacements and peak velocities generally decreased for LVs other than the reference condition. Lower lip movements showed inconsistent changes as a function of LV. Adjustments to the LV for speech led to SPL and F 0 changes consistent with a coordinated control of the respiratory system and the larynx. However, less consistent effects were observed in the articulatory kinematic measures, possibly because of a less direct biomechanical and neural control linkage between respiratory and articulatory structures.

Contributions of Voice and Nonverbal Communication to Perceived Masculinity–Femininity for Cisgender and Transgender Communicators

2020 ◽  
Vol 63 (4) ◽  
pp. 931-947
Author(s):  
Teresa L. D. Hardy ◽  
Carol A. Boliek ◽  
Daniel Aalto ◽  
Justin Lewicke ◽  
Kristopher Wells ◽  
...  
Keyword(s):  
Fundamental Frequency ◽  
Sound Pressure Level ◽  
Sound Pressure ◽  
Vocal Tract ◽  
Presentation Mode ◽  
Pressure Level ◽  
Presentation Modes ◽  
Audiovisual Stimuli ◽  
Vocal Tract Resonance ◽  
Point Light

Purpose The purpose of this study was twofold: (a) to identify a set of communication-based predictors (including both acoustic and gestural variables) of masculinity–femininity ratings and (b) to explore differences in ratings between audio and audiovisual presentation modes for transgender and cisgender communicators. Method The voices and gestures of a group of cisgender men and women ( n = 10 of each) and transgender women ( n = 20) communicators were recorded while they recounted the story of a cartoon using acoustic and motion capture recording systems. A total of 17 acoustic and gestural variables were measured from these recordings. A group of observers ( n = 20) rated each communicator's masculinity–femininity based on 30- to 45-s samples of the cartoon description presented in three modes: audio, visual, and audio visual. Visual and audiovisual stimuli contained point light displays standardized for size. Ratings were made using a direct magnitude estimation scale without modulus. Communication-based predictors of masculinity–femininity ratings were identified using multiple regression, and analysis of variance was used to determine the effect of presentation mode on perceptual ratings. Results Fundamental frequency, average vowel formant, and sound pressure level were identified as significant predictors of masculinity–femininity ratings for these communicators. Communicators were rated significantly more feminine in the audio than the audiovisual mode and unreliably in the visual-only mode. Conclusions Both study purposes were met. Results support continued emphasis on fundamental frequency and vocal tract resonance in voice and communication modification training with transgender individuals and provide evidence for the potential benefit of modifying sound pressure level, especially when a masculine presentation is desired.

Case study: Theoretical calculation model and variable condition analysis research on the water-splashing noise for natural draft wet cooling towers

2020 ◽  
Vol 68 (2) ◽  
pp. 137-145
Author(s):  
Yang Zhouo ◽  
Ming Gao ◽  
Suoying He ◽  
Yuetao Shi ◽  
Fengzhong Sun
Keyword(s):  
Theoretical Model ◽  
Sound Pressure Level ◽  
Water Droplet ◽  
Water Distribution ◽  
Sound Pressure ◽  
Cooling Tower ◽  
Distribution Patterns ◽  
Calculation Model ◽  
Pressure Level ◽  
Cooling Towers

Based on the basic theory of water droplets impact noise, the generation mechanism and calculation model of the water-splashing noise for natural draft wet cooling towers were established in this study, and then by means of the custom software, the water-splashing noise was studied under different water droplet diameters and water-spraying densities as well as partition water distribution patterns conditions. Comparedwith the water-splashing noise of the field test, the average difference of the theoretical and the measured value is 0.82 dB, which validates the accuracy of the established theoretical model. The results based on theoretical model showed that, when the water droplet diameters are smaller in cooling tower, the attenuation of total sound pressure level of the water-splashing noise is greater. From 0 m to 8 m away from the cooling tower, the sound pressure level of the watersplashing noise of 3 mm and 6 mm water droplets decreases by 8.20 dB and 4.36 dB, respectively. Additionally, when the water-spraying density becomes twice of the designed value, the sound pressure level of water-splashing noise all increases by 3.01 dB for the cooling towers of 300 MW, 600 MW and 1000 MW units. Finally, under the partition water distribution patterns, the change of the sound pressure level is small. For the R s/2 and Rs/3 partition radius (Rs is the radius of water-spraying area), when the water-spraying density ratio between the outer and inner zone increases from 1 to 3, the sound pressure level of water-splashing noise increases by 0.7 dB and 0.3 dB, respectively.

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