Acoustical properties in inhaling singing: A case-study

Q3 Medicine

Physics in Medicine Pub Date : 2017-06-01 DOI:10.1016/j.phmed.2017.02.001

Françoise Vanhecke , Mieke Moerman , Frank Desmet , Joren Six , Kristin Daemers , Godfried-Willem Raes , Marc Leman

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引用次数: 4

Abstract

A highly experienced versatile female professional singer displaying no apparent vocal complaint, developed inhaling singing, an innovative approach to reverse phonation. Although there are some reports in literature that describe the characteristics of ingressive phonation and sounds, to the best of our knowledge, no reports on actual inhaling singing are available in literature. This paper reports a case study on the acoustical analysis of inhaling singing, comparing this innovative technique with traditional exhaling singing. As this is rather undiscovered territory, we have decided to address several questions: is it possible to match the same pitches using inhaling singing compared to exhaling singing? Is the harmonic structure and energy distribution similar? Is it possible to maintain the same phonation duration in both techniques? Are there differences in volume and tessitura (vocal range)? This paper, reporting on the experience of one individual, demonstrates that a tessitura can be mastered in inhaling singing. Spectral analysis reveals a similar frequency distribution in both conditions. However, in inhaling singing the energy of the harmonics is significantly lower for the first 3 overtones, while the maximum phonation time is larger, than in exhaling singing. The singer reports that less effort is required for inhaling singing in the high register. As such, inhaling singing offers new possibilities for vocal performance.

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吸入歌唱的声学特性:个案研究

一位经验丰富的全能女专业歌手，没有明显的声音抱怨，发展了吸气式演唱，一种创新的反发声方法。虽然文献中有一些报道描述了吸气式发音和声音的特征，但据我们所知，文献中没有关于实际吸气式唱歌的报道。本文对吸气式歌唱的声学分析进行了案例研究，并将这种创新技术与传统的呼气式歌唱进行了比较。由于这是一个相当未被发现的领域，我们决定解决几个问题:与呼气唱歌相比，吸气唱歌是否有可能匹配相同的音高?谐波结构和能量分布是否相似?在这两种技术中是否有可能保持相同的发声时长?音量和音域(音域)有区别吗?这篇文章，报告了一个人的经验，证明了一个织体可以在吸气唱歌中被掌握。频谱分析显示两种情况下频率分布相似。然而，在吸气式演唱中，前3个泛音的谐波能量明显低于呼气式演唱，而最大发声时间则大于呼气式演唱。歌手报告说，在高音区吸气所需的努力更少。因此，吸气式歌唱为声乐表演提供了新的可能性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Physics in Medicine Physics and Astronomy-Instrumentation

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： The scope of Physics in Medicine consists of the application of theoretical and practical physics to medicine, physiology and biology. Topics covered are: Physics of Imaging Ultrasonic imaging, Optical imaging, X-ray imaging, Fluorescence Physics of Electromagnetics Neural Engineering, Signal analysis in Medicine, Electromagnetics and the nerve system, Quantum Electronics Physics of Therapy Ultrasonic therapy, Vibrational medicine, Laser Physics Physics of Materials and Mechanics Physics of impact and injuries, Physics of proteins, Metamaterials, Nanoscience and Nanotechnology, Biomedical Materials, Physics of vascular and cerebrovascular diseases, Micromechanics and Micro engineering, Microfluidics in medicine, Mechanics of the human body, Rotary molecular motors, Biological physics, Physics of bio fabrication and regenerative medicine Physics of Instrumentation Engineering of instruments, Physical effects of the application of instruments, Measurement Science and Technology, Physics of micro-labs and bioanalytical sensor devices, Optical instrumentation, Ultrasound instruments Physics of Hearing and Seeing Acoustics and hearing, Physics of hearing aids, Optics and vision, Physics of vision aids Physics of Space Medicine Space physiology, Space medicine related Physics.