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Overview on state-of-the-art numerical modeling of the phonation process

Michael Döllinger, Zhaoyan Zhang, Stefan Schoder, Petr Šidlof, Bogac Tur, Stefan Kniesburges

2023Acta Acustica24 citationsDOIOpen Access PDF

Abstract

Numerical modeling of the human phonatory process has become more and more in focus during the last two decades. The increase in computational power and the use of high-performance computation (HPC) yielded more complex models being closer to the actual fluid-structure-acoustic interaction (FSAI) within the human phonatory process. However, several different simulation approaches with varying mathematical complexity and focus on certain parts of the phonatory process exist. Currently, models are suggested based on ordinary differential equations (reduced order models) but also on partial differential equations based on continuum mechanics as e.g. the Navier–Stokes equations for the flow discretized by Finite-Volume or Finite-Element-Methods. This review will illuminate current trends and recent progress within the area. In summary, the ultimate simulation model satisfying all physiological needs and scientific opinions still has to be developed.

Topics & Concepts

DiscretizationFinite element methodFocus (optics)PhonationOrdinary differential equationComputationComputer sciencePartial differential equationProcess (computing)Finite volume methodApplied mathematicsDifferential equationCalculus (dental)MathematicsMechanicsMathematical analysisPhysicsAlgorithmAudiologyMedicineOpticsOperating systemThermodynamicsDentistryAcoustic Wave Phenomena ResearchMusic Technology and Sound StudiesSpeech and Audio Processing
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