Title :
Simulation of Losses Due to Turbulence in the Time-Varying Vocal System
Author :
Birkholz, Peter ; Jackèl, Dietmar ; Kröger, Bernd J.
Author_Institution :
Rostock Univ.
fDate :
5/1/2007 12:00:00 AM
Abstract :
Flow separation in the vocal system at the outlet of a constriction causes turbulence and a fluid dynamic pressure loss. In articulatory synthesizers, the pressure drop associated with such a loss is usually assumed to be concentrated at one specific position near the constriction and is represented by a lumped nonlinear resistance to the flow. This paper highlights discontinuity problems of this simplified loss treatment when the constriction location changes during dynamic articulation. The discontinuities can manifest as undesirable acoustic artifacts in the synthetic speech signal that need to be avoided for high-quality articulatory synthesis. We present a solution to this problem based on a more realistic distributed consideration of fluid dynamic pressure changes. The proposed method was implemented in an articulatory synthesizer where it proved to prevent any acoustic artifacts
Keywords :
speech synthesis; acoustic artifacts; articulatory synthesizers; dynamic articulation; flow separation; fluid dynamic pressure loss; high-quality articulatory synthesis; lumped nonlinear resistance; synthetic speech signal; time-varying vocal system; Energy loss; Facial animation; Fluid dynamics; Kinetic theory; Medical treatment; Natural languages; Signal synthesis; Speech synthesis; Synthesizers; Time varying systems; Articulatory speech synthesis; fluid dynamics; kinetic pressure loss; vocal system;
Journal_Title :
Audio, Speech, and Language Processing, IEEE Transactions on
DOI :
10.1109/TASL.2006.889731
