Acoustics of Breath Noises in Human Speech: Descriptive and Three-Dimensional Modeling Approaches.

IF 2.2 2区医学 Q1 AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY Journal of Speech Language and Hearing Research Pub Date : 2024-10-24 Epub Date: 2023-11-16 DOI:10.1044/2023_JSLHR-23-00112

Raphael Werner, Susanne Fuchs, Jürgen Trouvain, Steffen Kürbis, Bernd Möbius, Peter Birkholz

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Abstract

Purpose: Breathing is ubiquitous in speech production, crucial for structuring speech, and a potential diagnostic indicator for respiratory diseases. However, the acoustic characteristics of speech breathing remain underresearched. This work aims to characterize the spectral properties of human inhalation noises in a large speaker sample and explore their potential similarities with speech sounds. Speech sounds are mostly realized with egressive airflow. To account for this, we investigated the effect of airflow direction (inhalation vs. exhalation) on acoustic properties of certain vocal tract (VT) configurations.

Method: To characterize human inhalation, we describe spectra of breath noises produced by human speakers from two data sets comprising 34 female and 100 male participants. To investigate the effect of airflow direction, three-dimensional-printed VT models of a male and a female speaker with static VT configurations of four vowels and four fricatives were used. An airstream was directed through these VT configurations in both directions, and their spectral consequences were analyzed.

Results: For human inhalations, we found spectra with a decreasing slope and several weak peaks below 3 kHz. These peaks show moderate (female) to strong (male) overlap with resonances found for participants inhaling with a VT configuration of a central vowel. Results for the VT models suggest that airflow direction is crucial for spectral properties of sibilants, /ç/, and /i:/, but not the other sounds we investigated. Inhalation noise is most similar to /ə/ where airflow direction does not play a role.

Conclusions: Inhalation is realized on ingressive airflow, and inhalation noises have specific resonance properties that are most similar to /ə/ but occur without phonation. Airflow direction does not play a role in this specific VT configuration, but subglottal resonances may do. For future work, we suggest investigating the articulation of speech breathing and link it to current work on pause postures.

Supplemental material: https://doi.org/10.23641/asha.24520585.

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人类语音中的呼吸噪声声学:描述和三维建模方法。

目的:呼吸在语音产生过程中无处不在，对语音结构至关重要，也是呼吸系统疾病的潜在诊断指标。然而，语音呼吸的声学特性仍未得到充分研究。这项工作的目的是在一个大的扬声器样本中表征人类吸入噪声的频谱特性，并探索它们与语音的潜在相似性。语音大多是通过气流进气来实现的。为了解释这一点，我们研究了气流方向(吸入与呼出)对某些声道(VT)结构声学特性的影响。方法:为了描述人类吸入的特征，我们描述了由34名女性和100名男性参与者组成的两个数据集的人类说话者产生的呼吸噪声光谱。为了研究气流方向对声速的影响，采用四元音四摩擦音静态声速三维打印的男扬声器和女扬声器声速模型。一股气流在两个方向上通过这些VT配置，并分析了它们的频谱结果。结果:在人体吸入光谱中，在3khz以下有几个弱峰，斜率逐渐减小。这些峰值显示了中度(女性)到强烈(男性)的重叠，与中心元音的VT配置吸入的参与者的共振重叠。VT模型的结果表明，气流方向对硅音、/ç/和/i:/的频谱特性至关重要，但对我们研究的其他声音则没有影响。吸入噪声最类似于/ /，气流方向不起作用。结论:吸入是通过进气流实现的，吸入噪声具有与/ / /最相似但不发声的特定共振特性。气流方向在这种特殊的VT配置中不起作用，但声门下共振可能起作用。对于未来的工作，我们建议研究语音呼吸的发音，并将其与当前关于暂停姿势的研究联系起来。补充资料:https://doi.org/10.23641/asha.24520585。

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来源期刊

Journal of Speech Language and Hearing Research AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY-REHABILITATION

CiteScore

4.10

自引率

19.20%

发文量

538

审稿时长

4-8 weeks

期刊介绍： Mission: JSLHR publishes peer-reviewed research and other scholarly articles on the normal and disordered processes in speech, language, hearing, and related areas such as cognition, oral-motor function, and swallowing. The journal is an international outlet for both basic research on communication processes and clinical research pertaining to screening, diagnosis, and management of communication disorders as well as the etiologies and characteristics of these disorders. JSLHR seeks to advance evidence-based practice by disseminating the results of new studies as well as providing a forum for critical reviews and meta-analyses of previously published work. Scope: The broad field of communication sciences and disorders, including speech production and perception; anatomy and physiology of speech and voice; genetics, biomechanics, and other basic sciences pertaining to human communication; mastication and swallowing; speech disorders; voice disorders; development of speech, language, or hearing in children; normal language processes; language disorders; disorders of hearing and balance; psychoacoustics; and anatomy and physiology of hearing.