A numerical study of the flow-induced vibration characteristics of a voice-producing element for laryngectomized patients

Thomson, Scott L.; Tack, J.W.; Verkerke, Gijsbertus Jacob

doi:10.1016/j.jbiomech.2007.06.007

Cited by 16 publications

(5 citation statements)

References 11 publications

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“…The naturalness of the produced sounds is, however, very far from the original. For a number of open research questions hardware models are used and serve as experimental reference for numerical approaches, mostly based upon the famous scaled model of the glottis 'M5' [115][116][117], or 1: 1 vocal fold models [118].…”

Section: Concepts and Challengesmentioning

confidence: 99%

Analysing and Understanding the Singing Voice: Recent Progress and Open Questions

Kob¹,

Henrich²,

Herzel³

et al. 2011

CBIO

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Abstract:The breadth of expression in singing depends on fine control of physiology and acoustics. In this review, the basic concepts from speech acoustics, including the source-filter model, models of the glottal source and source-filter interactions, are described. The precise control, the extended pitch range, the timbre control and, in some cases, the uses of alternate phonation modes all merit further attention and explanation. Here we review features of the singing voice and the understanding that has been delivered by new measurement techniques. We describe the glottal mechanisms and the control of vocal tract resonances used in singing. We review linear and nonlinear components of the voice and the way in which they are measured and modelled and discuss the aero-acoustic models. We conclude with a list of open questions and active fields of research.

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Section: Concepts and Challengesmentioning

confidence: 99%

Analysing and Understanding the Singing Voice: Recent Progress and Open Questions

Kob¹,

Henrich²,

Herzel³

et al. 2011

CBIO

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“…FIV problems are of great interest and complexity, and their solutions have practical applications in different fields of engineering [63]. Analyses of marine structures subjected to sinusoidal oscillatory flow (ocean waves) [64], voiceproducing and voice prosthesis [65] are examples of FIV applications.…”

Section: Flow-induced Vibrationsmentioning

confidence: 99%

A critical review on advanced velocity measurement techniques in pulsating flows

Nabavi

Siddiqui

2010

Meas. Sci. Technol.

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Velocity measurement in pulsating flows is more difficult than that in steady flows. One problem follows from the necessity to synchronize the measuring instrument with the characteristic of the flow which is not required for steady-flow measurements. The second challenge is high frequency response of the measuring device which is required for high frequency pulsating flow measurements. Because of development of more advanced measurement devices, there has recently been a growing interest in pulsating velocity measurement and the number of papers in this field has increased significantly in recent years. In this review, the most frequently-used advanced techniques for velocity measurement in pulsating flows are surveyed. The characteristics of different pulsating flows as well as the advantages and limitations of the developed techniques are discussed.

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“…Naturally in medicine it is important to understand the basic principles of voice production, see e.g. [2]. However, the voice production is a complex mechanism which includes complex airflow, vocal fold vibrations, acoustic resonances, etc.…”

Section: Introductionmentioning

confidence: 99%

Numerical Approximations of Flow Induced Vibrations of Vocal Folds

Sváček¹,

Horáček²,

Simos³

et al. 2010

AIP Conference Proceedings

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Abstract. The paper focus on mathematical modelling of incompressible fluid flow interacting with vibrations of an elastic vocal fold. The flow in moving domain is modelled by the incompressible Navier-Stokes equations written in the Arbitrary Lagrangian-Eulerian (ALE) form. The channel geometry is an approximation of the human glottal region. The flow model is coupled with a simplified structure model. The problem is mathematically described and the resulting fluid-structure interaction problem is discretized by a stabilized finite element method. A strong coupling algorithm is applied for solution of the coupled fluid-structure problem. The choice of boundary conditions is discussed, particularly the choice of different artificial inlet/outlet boundary conditions is described in details. The numerical results are shown.

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A numerical study of the flow-induced vibration characteristics of a voice-producing element for laryngectomized patients

Cited by 16 publications

References 11 publications

Analysing and Understanding the Singing Voice: Recent Progress and Open Questions

Analysing and Understanding the Singing Voice: Recent Progress and Open Questions

A critical review on advanced velocity measurement techniques in pulsating flows

Numerical Approximations of Flow Induced Vibrations of Vocal Folds

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