Bernhard Richter, Matthias Echternach, Louisa Traser
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引用次数: 0
摘要
歌唱家、声学专家和嗓音生理学家都对发音时的手势这一话题非常感兴趣。声乐教育家和嗓音研究专家曼努埃尔-加西亚(Manuel Garcia)于 19 世纪中叶首次创造了 "喉头起音"(coup de la glotte)一词。鉴于加西亚将这一过程定义为 "声门的精确发音,导致精确而干净的音调攻击",该术语当然可以与我们今天所理解的 "发声 "概念联系起来。然而,加西亚并不具备研究这一现象的技术手段。为了更好地理解现代研究发声的方法--以及仍然存在的局限性--似乎值得从历史的角度来探讨这个问题。高速视频喉镜(HSV)可以说是当今检查方法中的黄金标准。然而,它仍然无法检查声带振动的三维性,因为这与发声有关。显然,自加西亚时代以来,嗓音生理学的测量方法已经有了根本性的发展。这让人们看到了希望,相信在不久的将来,围绕发声现象的未解之谜将会得到解决。一个很有希望的方法是进一步开发超快速三维磁共振成像技术。
Investigation Methods for Vocal Onset-A Historical Perspective.
The topic of phonation onset gestures is of great interest to singers, acousticians, and voice physiologists alike. The vocal pedagogue and voice researcher Manuel Garcia, in the mid-19th century, first coined the term "coup de la glotte". Given that Garcia defined the process as "a precise articulation of the glottis that leads to a precise and clean tone attack", the term can certainly be linked to the concept of "vocal onset" as we understand it today. However, Garcia did not, by any means, have the technical measures at his disposal to investigate this phenomenon. In order to better understand modern ways of investigating vocal onset-and the limitations that still exist-it seems worthwhile to approach the subject from a historical perspective. High-speed video laryngoscopy (HSV) can be regarded as the gold standard among today's examination methods. Nonetheless, it still does not allow the three-dimensionality of vocal fold vibrations to be examined as it relates to vocal onset. Clearly, measuring methods in voice physiology have developed fundamentally since Garcia's time. This offers grounds for hope that the still unanswered questions around the phenomenon of vocal onset will be resolved in the near future. One promising approach could be to develop ultra-fast three-dimensional MRI further.
期刊介绍:
Aims
Bioengineering (ISSN 2306-5354) provides an advanced forum for the science and technology of bioengineering. It publishes original research papers, comprehensive reviews, communications and case reports. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. All aspects of bioengineering are welcomed from theoretical concepts to education and applications. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. There are, in addition, four key features of this Journal:
● We are introducing a new concept in scientific and technical publications “The Translational Case Report in Bioengineering”. It is a descriptive explanatory analysis of a transformative or translational event. Understanding that the goal of bioengineering scholarship is to advance towards a transformative or clinical solution to an identified transformative/clinical need, the translational case report is used to explore causation in order to find underlying principles that may guide other similar transformative/translational undertakings.
● Manuscripts regarding research proposals and research ideas will be particularly welcomed.
● Electronic files and software regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material.
● We also accept manuscripts communicating to a broader audience with regard to research projects financed with public funds.
Scope
● Bionics and biological cybernetics: implantology; bio–abio interfaces
● Bioelectronics: wearable electronics; implantable electronics; “more than Moore” electronics; bioelectronics devices
● Bioprocess and biosystems engineering and applications: bioprocess design; biocatalysis; bioseparation and bioreactors; bioinformatics; bioenergy; etc.
● Biomolecular, cellular and tissue engineering and applications: tissue engineering; chromosome engineering; embryo engineering; cellular, molecular and synthetic biology; metabolic engineering; bio-nanotechnology; micro/nano technologies; genetic engineering; transgenic technology
● Biomedical engineering and applications: biomechatronics; biomedical electronics; biomechanics; biomaterials; biomimetics; biomedical diagnostics; biomedical therapy; biomedical devices; sensors and circuits; biomedical imaging and medical information systems; implants and regenerative medicine; neurotechnology; clinical engineering; rehabilitation engineering
● Biochemical engineering and applications: metabolic pathway engineering; modeling and simulation
● Translational bioengineering
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