Source-Filter Interaction in Speech

语音中的源过滤器交互

• 批准号: 8521239
• 负责人: INGO R TITZE
• 金额: $ 35.8万
• 依托单位: UNIVERSITY OF UTAH
• 依托单位国家: 美国
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-09-01 至 2017-08-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8521239
• 关键词: Acoustics; Address; Affect; Aging; Animals; Basic Science; Characteristics; Clinical; Computer Simulation; Coupled; Development; Elderly; Emotions; Equipment and supply inventories; Exhibits; Feedback; Frequencies; Guidelines; Hand; Human; Human Volunteers; Individual; Intervention; Investigation; Label; Larynx; Lead; Length; Longevity; Loudness; Minor; Motivation; Nature; Neuromuscular Diseases; Oral; Organ; Otolaryngologist; Paired Comparison; Persons; Phonation; Phonetics; Physiologic pulse; Play; Population; Power Sources; Procedures; Production; Psychological reinforcement; Research; Resort; Role; Shapes; Side; Source; Speech; Speech Disorders; Speech Pathologist; Structure; System; Testing; Tissues; Training; Translations; Uncertainty; Voice; Voice Disorders; Voice Quality; computerized data processing; cost; glottis; male; pressure; respiratory; sound; speech processing; theories; tool; vibration; vocal cord

DESCRIPTION (provided by applicant): This research addresses refinement of a theory of speech production that has existed for more than half a century, the source-filter theory. It is used routinely in acoustic phonetics and in the description of voice and speech disorders. It is also used extensively in speech processing to separate sound sources from sound resonators. Recent advances in speech production research, primarily with computer simulation, have shown that the primary sound source in the larynx (glottal airflow) can be highly influenced by acoustic pressures propagating backwards from the vocal tract to the larynx. The feedback interaction can disturb vocal fold vibration, producing pitch jumps, subharmonic frequencies, or even chaos. It can also affect the phonation threshold pressure, making it either more easy or more difficult to self-sustain vocal fold oscillation. The significance of the research is that cerain vocal sound qualities, often labeled as voice disorders, may be part of a normal inventory of human sounds. Specific aims are (1) to determine if vocal intensity can be affected by source-filter interaction (SFI), (2) to discover which vocal tract configurations lead to the greatest interactions, (3) to validate or invalidate a procedure known as inverse-filtering, which allegedly separates the source characteristics from filter characteristics, and (4) to determine if vocal instabilities in the aging male voice are related to SFI. Human volunteers and computer simulation will be used in a structured way to quantify and explain the nature of SFI.

描述（由申请人提供）：本研究解决了已经存在了半个多世纪的语音产生理论，即源过滤器理论的改进。它通常用于声学语音学和描述语音和言语障碍。它还广泛用于语音处理，以将声源与声音谐振器分离。语音产生研究的最新进展，主要是计算机模拟，已经表明，在喉（声门气流）的主要声源可以受到从声道向后传播到喉的声压的高度影响。反馈的相互作用可以干扰声带振动，产生音高跳跃，次谐波频率，甚至混乱。它还可以影响发声阈值压力，使其更容易或更难自我维持声带振荡。这项研究的意义在于，某些通常被称为嗓音障碍的声音质量可能是人类声音正常库存的一部分。具体目标是（1）确定声音强度是否会受到声源-滤波器相互作用（SFI）的影响，（2）发现哪些声道配置导致最大的相互作用，（3）验证或无效称为逆滤波的过程，据称该过程 分离源特性和滤波器特性，以及（4）确定老化男声中的发声不稳定性是否与SFI有关。人类志愿者和计算机模拟将以结构化的方式来量化和解释SFI的性质。