MAGE - Reactive articulatory feature control of HMM-based parametric speech synthesis

[en] In this paper, we present the integration of articulatory control into MAGE, a framework for realtime and interactive (reactive) parametric speech synthesis using hidden Markov models (HMMs). MAGE is based on the speech synthesis engine from HTS and uses acoustic features (spectrum and f0 ) to model and synthesize speech. In this work, we replace the standard acoustic models with models combining acoustic and articulatory features, such as tongue, lips and jaw positions. We then use feature-space-switched articulatory-to-acoustic regression matrices to enable us to control the spectral acoustic features by manipulating the articulatory features. Combining this synthesis model with M AGE allows us to interactively and intuitively modify phones synthesized in real time, for example transforming one phone into another, by controlling the configuration of the articulators in a visual display.

Disciplines :

Library & information sciences

Author, co-author :

Astrinaki, Maria ; Université de Mons > Faculté Polytechnique > Information, Signal et Intelligence artificielle

Moinet, Alexis ; Université de Mons > Faculté Polytechnique > Information, Signal et Intelligence artificielle

Junichi, Yamagishi

Richmond, Korin

Ling, Zen-Hua

King, Simon

Dutoit, Thierry ; Université de Mons > Faculté Polytechnique > Information, Signal et Intelligence artificielle

Language :

English

Title :

MAGE - Reactive articulatory feature control of HMM-based parametric speech synthesis

Publication date :

31 August 2013

Event name :

8th Speech Synthesis Workshop (SSW8)

Event place :

Barcelona, Spain

Event date :

2013

Research unit :

F105 - Information, Signal et Intelligence artificielle

Research institute :

R450 - Institut NUMEDIART pour les Technologies des Arts Numériques

Available on ORBi UMONS :

since 14 January 2014

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Bibliography

R. Carlson and B. Granstrom, "A text-to-speech system based entirely on rules," in Proc. of ICASSP, 1976.
F. Charpentier and M. Stella, "Diphone synthesis using an overlap-add technique for speech waveforms concatenation," in Proc. of ICASSP, vol. 11, 1986, pp. 2015-2018.
B. Brent andW. J. Strong, "Windbag - a vocal-tract analog speech synthesizer," Acoustical Society of America, vol. 45, 309(A), 1969.
A. Hunt and A. Black, "Unit selection in a concatenative speech synthesis system using a large speech database," in Proc. of ICASSP, 1996, pp. 373-376.
H. Zen, K. Tokuda, and A. W. Black, "Statistical parametric speech synthesis," Speech Communication, vol. 51, pp. 1039-1064, 2009.
M. Astrinaki, A. Moinet, G. Wilfart, N. d'Alessandro, and T. Dutoit. (2010, September) Mage platform for performative speech synthesis. [Online]. Available: http://mage.numediart.org/
T. Yoshimura, K. Tokuda, T. Masuko, T. Kobayashi, and T. Kitamura, "Simultaneous modeling of spectrum, pitch and duration in HMM-based speech synthesis," Proc. Eurospeech, vol. 83, no. 11, pp. 2347-2350, 1999.
K. Tokuda, H. Zen, and A. Black, "HMM-based approach to multilingual speech synthesis," Text to speech synthesis: New paradigms and advances, pp. 135-153, 2004.
K. Oura. (2010, Sept) HMM-based speech synthesis system (hts). [Online]. Available: http://hts.sp.nitech.ac.jp/
Z.-H. Ling, K. Richmond, J. Yamagishi, and R.-H. Wang, "Integrating articulatory features into HMM-based parametric speech synthesis," IEEE Transactions On Audio Speech And Language Processing, vol. 17, no. 6, pp. 1171-1185, 2009.
Z. Ling, K. Richmond, and J. Yamagishi, "Articulatory control of HMM-based parametric speech synthesis using feature-spaceswitched multiple regression," IEEE TASLP, vol. 21, no. 1, pp. 207-219, 2013.
M. Puckette. (2009, September) Pure data. [Online]. Available: http://puredata.info/
Z. Lieberman, T. Watson, A. Castro, and etc. (2009, September) openframeworks. [Online]. Available: http: //www.openframeworks.cc
R. A. Clark, M. A. Konkiewicz, M. Astrinak, and J. Yamagishi, "Reactive control of expressive speech synthesis using kinect skeleton tracking," Tech. Rep. 30, December 2012.
M. Astrinaki, A. Moinet, N. d'Alessandro, and T. Dutoit, "Pure data external for reactive HMM-based speech and singing synthesis," Proc. of the 16th Int. Conference on Digital Audio Effects (DAFx-13), 2013.
M. Astrinaki, N. d'Alessandro, B. Picart, T. Drugman, and T. Dutoit, "Reactive and continuous control ofHMM-based speech synthesis," in Spoken Language Technology Workshop (SLT), 2012 IEEE, 2012, pp. 252-257.
M. Astrinaki, N. d'Alessandro, L. Reboursière, A. Moinet, and T. Dutoit, "MAGE 2.00: New features and its application in the development of a talking guitar," in Proc. of the 13th Conference on New Interfaces for Musical Expression (NIME'13), 2013.
K. Sumita and R. Members, "Mel log spectrum approximation (mlsa) filter for speech synthesis," Electronics and Communications in Japan, vol. 6, no. 2, pp. 10-18, 1983.
K. Richmond and S. Renals, "Ultrax: An animated midsagittal vocal tract display for speech therapy," in Proc. Interspeech, 2012.
A. Schmeder, A. Freed, and D. Wessel. (2009, September) opensoundcontrol.org. [Online]. Available: http: //opensoundcontrol.org