Add to ORKGA new method for automatically fitting the Liljencrants-Fant (LF) model to the time domain waveform of the glottal flow derivative is presented in this paper. By applying an extended Kalman filter (EKF) to track the LF-model shape-controlling parameters and dynamically searching for a globally minimal fitting error, the algorithm can accurately fit the LF-model to the inverse filtered glottal flow derivative. Experimental results show that the method has better performance for both synthetic and real speech signals compared to a standard time-domain LF-model fitting algorithm. By offering a new method to estimate the glottal source LF-model parameters, the proposed algorithm can be utilised in many applications
The purpose of this study is to explore the possibility for physically based mathematical models of ...
International audienceSpeech glottal flow has been predominantly described in the time-domain in pas...
Subglottal Impedance-Based Inverse Filtering (IBIF) allows for the continuous, non-invasive estimati...
A new method for automatically fitting the Liljencrants-Fant (LF) model to the time domain waveform ...
A new algorithm for glottal source parameter estimation of voiced speech based on the Liljencrants-F...
The Liljencrants-Fant (LF) model is used to capture the shape parameters from the voice source. In t...
A new approach to robust tracking of glottal LF-model parameters is presented. The approach does not...
Abstract—An automatic technique for estimating and modeling the glottal flow derivative source wavef...
The widely used method to estimate glottal source waveform and vocal tract shape is to process speec...
This paper studies the use of glottal inverse filtering together with a biomechanical model of the v...
Estimating glottal source waveforms and vocal tract shapes is typically done by processing the speec...
This paper presents a new glottal inverse filtering (GIF) method that utilizes a Markov chain Monte ...
We discuss the use of low-dimensional physical models of the voice source for speech coding and proc...
The flow of air through the glottis, the glottal volume-velocity, reflects the action of the vocal f...
A low-dimensional physically oriented model of the glottal source is discussed. The model relies on ...
The purpose of this study is to explore the possibility for physically based mathematical models of ...
International audienceSpeech glottal flow has been predominantly described in the time-domain in pas...
Subglottal Impedance-Based Inverse Filtering (IBIF) allows for the continuous, non-invasive estimati...
A new method for automatically fitting the Liljencrants-Fant (LF) model to the time domain waveform ...
A new algorithm for glottal source parameter estimation of voiced speech based on the Liljencrants-F...
The Liljencrants-Fant (LF) model is used to capture the shape parameters from the voice source. In t...
A new approach to robust tracking of glottal LF-model parameters is presented. The approach does not...
Abstract—An automatic technique for estimating and modeling the glottal flow derivative source wavef...
The widely used method to estimate glottal source waveform and vocal tract shape is to process speec...
This paper studies the use of glottal inverse filtering together with a biomechanical model of the v...
Estimating glottal source waveforms and vocal tract shapes is typically done by processing the speec...
This paper presents a new glottal inverse filtering (GIF) method that utilizes a Markov chain Monte ...
We discuss the use of low-dimensional physical models of the voice source for speech coding and proc...
The flow of air through the glottis, the glottal volume-velocity, reflects the action of the vocal f...
A low-dimensional physically oriented model of the glottal source is discussed. The model relies on ...
The purpose of this study is to explore the possibility for physically based mathematical models of ...
International audienceSpeech glottal flow has been predominantly described in the time-domain in pas...
Subglottal Impedance-Based Inverse Filtering (IBIF) allows for the continuous, non-invasive estimati...