We discuss the use of low-dimensional physical models of the voice source for speech coding and processing applications. A class of waveform-adaptive dynamic glottal models and parameter tracking procedures are illustrated. The model and analysis procedures are assessed by addressing speech encoding and enhancement, achievable by using a state space version of the dynamical model in a Extended Kalman filtering framework. The proposed method is shown to provide better SNR improvement if compared to a standard AR Kalman filtering scheme
This paper presents an algorithm for modulation-domain speech enhancement using a Kalman filter. The...
This paper presents a time-frequency estimator for en-hancement of noisy speech in the DFT domain. T...
A glottal model based on physical constraints is proposed. The model describes the vocal fold as a s...
We discuss the use of low-dimensional physical models of the voice source for speech coding and proc...
We discuss the use of low-dimensional physical models of the voice source for speech coding and proc...
We discuss the use of low-dimensional physical models of the voice source for speech coding and proc...
The reproduction of voiced sounds by physical modeling is addressed. A major focus is put on the pos...
A new algorithm for glottal source parameter estimation of voiced speech based on the Liljencrants-F...
International audienceA new type of glottal flow model, namely a causal-anticausal linear filter mod...
A new method for automatically fitting the Liljencrants-Fant (LF) model to the time domain waveform ...
Abstract—A novel Kalman filtering/smoothing algorithm is presented for efficient and accurate estima...
This paper studies the use of glottal inverse filtering together with a biomechanical model of the v...
International audienceSource-filter paradigm is one of the most common approaches used by the scient...
A waveform adaptive physical model of the glottal source is proposed. The model relies on a lumped m...
The purpose of this study is to explore the possibility for physically based mathematical models of ...
This paper presents an algorithm for modulation-domain speech enhancement using a Kalman filter. The...
This paper presents a time-frequency estimator for en-hancement of noisy speech in the DFT domain. T...
A glottal model based on physical constraints is proposed. The model describes the vocal fold as a s...
We discuss the use of low-dimensional physical models of the voice source for speech coding and proc...
We discuss the use of low-dimensional physical models of the voice source for speech coding and proc...
We discuss the use of low-dimensional physical models of the voice source for speech coding and proc...
The reproduction of voiced sounds by physical modeling is addressed. A major focus is put on the pos...
A new algorithm for glottal source parameter estimation of voiced speech based on the Liljencrants-F...
International audienceA new type of glottal flow model, namely a causal-anticausal linear filter mod...
A new method for automatically fitting the Liljencrants-Fant (LF) model to the time domain waveform ...
Abstract—A novel Kalman filtering/smoothing algorithm is presented for efficient and accurate estima...
This paper studies the use of glottal inverse filtering together with a biomechanical model of the v...
International audienceSource-filter paradigm is one of the most common approaches used by the scient...
A waveform adaptive physical model of the glottal source is proposed. The model relies on a lumped m...
The purpose of this study is to explore the possibility for physically based mathematical models of ...
This paper presents an algorithm for modulation-domain speech enhancement using a Kalman filter. The...
This paper presents a time-frequency estimator for en-hancement of noisy speech in the DFT domain. T...
A glottal model based on physical constraints is proposed. The model describes the vocal fold as a s...
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