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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Vocal changes in animals during disorders / Stimmveränderungen bei Tieren im Krankheitsfall

Riede, Tobias 26 June 2000 (has links)
Welchen Einfluß hat eine Erkrankung der lautgenerierenden Strukturen auf das Lautprodukt. Wie kann eine Stimmveränderung beschrieben werden? Diese Fragen waren zentrales Thema der Untersuchungen. Es wurde ausschließlich auf Senderseite gearbeitet und das akustische Signal und sein Generierungsmechanismus betrachtet. Zunächst wurden nichtlineare Phänomene in drei Fallstudien betrachtet. Nichtlineare Phänomene sind akustische Ereignisse, die auf ein besonderes Schwingungsverhalten der Stimmlippen zurückzuführen sind. In allen drei Fällen kamen nichtlineare Phänomene am häufigsten bei dem erkrankten Tier vor. In einer weiteren Untersuchung wurde der Harmonischen-Rausch-Abstand auf Hundebellen angewendet. Dieser akustische Parameter wurde bisher noch nicht in der Bioakustik verwendet. Normal klingende Hunde scheinen einen mittleren HNR Bereich einzunehmen, während Hunde mit Dysphonie außerhalb dieses Bereiches liegen. Außerdem wurden Untersuchungen zur Anatomie der Stimmlippen und des Vokaltraktes durchgeführt, um bestimmte Aspekte der laryngealen Stimmgenerierung zu verstehen. Diese Dissertation enthält WAVE-Datein, welche hier heruntergeladen werden können: Attached Audiofiles. / If the sender's physiology or merely the sound generating apparatus is affected by a disease, what impact on voice does it have? How can this vocal change be described? Those questions were the central issue in this work, consequently this work is focussed on the sender's side - the acoustic signal and the mechanism of sound production. First nonlinear phonemena, acoustic events arising from certain vibration patterns of the vocal folds were investigated in three case studies. In all three cases the amount of nonlinear phenomena was higher in the disordered animal. Second, the harmonic-to-noise-ratio (HNR), an acoustic parameter not yet used in animal bioacoustics, was applied to dog barks to quantify dysphonia. Normal sounding dogs occupy a middle HNR range, while dysphonic dogs exceed this range to higher as well as to lower HNR values. Additionally, certain aspects of the vocal fold and vocal tract anatomy were investigated in respect to their significance for laryngeal sound generation. This dissertation contains WAVE-files which can be downloaded here: Attached Audiofiles.
2

Efficient 3D Acoustic Simulation of the Vocal Tract by Combining the Multimodal Method and Finite Elements

Blandin, Rémi, Arnela, Marc, Félix, Simon, Doc, Jean-Baptiste, Birkholz, Peter 22 February 2024 (has links)
Acoustic simulation of sound propagation inside the vocal tract is a key element of speech research, especially for articulatory synthesis, which allows one to relate the physics of speech production to other fields of speech science, such as speech perception. Usual methods, such as the transmission line method, have a very low computational cost and perform relatively good up to 4-5 kHz, but are not satisfying above. Fully numerical 3D methods such as finite elements achieve the best accuracy, but have a very high computational cost. Better performances are achieved with the state of the art semi-analytical methods, but they cannot describe the vocal tract geometry as accurately as fully numerical methods (e.g. no possibility to take into account the curvature). This work proposes a new semi-analytical method that achieves a better description of the three-dimensional vocal-tract geometry while keeping the computational cost substantially lower than the fully numerical methods. It is a multimodal method which relies on two-dimensional finite elements to compute transverse modes and takes into account the curvature and the variations of crosssectional area. The comparison with finite element simulations shows that the same degree of accuracy (about 1% of difference in the resonance frequencies) is achieved with a computational cost about 10 times lower.

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