digital ladder filter that is called the Kelly–Lochbaum model. In this paper we particularly well suited for articulatory speech synthesis. II. CONICAL TUBE. These refinements result in an accurate and intuitively con- trollable vocal tract model that is well suited for articula- tory speech synthesis. I. INTRODUCTION An . The scattering equations of the Kelly–Lochbaum segmented tube, including the “Speech synthesis,” in Proceedings of the Fourth International Congress on.
|Published (Last):||12 February 2018|
|PDF File Size:||9.34 Mb|
|ePub File Size:||16.5 Mb|
|Price:||Free* [*Free Regsitration Required]|
Skip to search form Skip to main content. This is implemented by a digital ladder filter that is called the Kelly—Lochbaum model.
NMAH | Smithsonian Speech Synthesis History Project (im_htm)
In this paper we propose an extended approach, where the tube sections approximating the profile of the tract are conical instead of cylindrical. This paper has 33 citations. From This Paper Figures, tables, and topics from this paper. Tract literature Search for additional papers on this topic.
Topics Discussed in This Paper. Tract literature Speech synthesis. Kelly criterion Electronic filter topology. Citations Publications citing this paper.
Case Study: The Kelly-Lochbaum Digital Speech Synthesis Model
Showing of 24 extracted citations. GullyHelena DaffernDamian T.
MullenSimon Shelley MullenDavid M. HowardDamian T. References Publications referenced by this paper.
Showing of 11 references. Articulatory control of a vocal tract model based on fractional delay waveguide filters.
An optimized multirate sampling technique for the dynamic variation of vocal tract length in the Kelly-Lochbaum speech synthesis model G. Speech and Audio Processing Digital modelling of a variable-length acoustic tube.
Nordic Acoustical MeetingTampere…. Continuous variation of the vocal tract length in a Kelly—Lochbaum type speech production model. Sampled-data representation of a nonuniform lossless tube of continuously variable length.