| Catégorie de document |
Contribution à un colloque ou à un congrès |
| Titre |
Physical principles driven joint evaluation of multiple F0 hypotheses |
| Auteur principal |
Chunghsin Yeh |
| Co-auteur |
Axel Roebel |
| Colloque / congrès |
ISCA Tutorial and Research Workshop on Statistical and Perceptual Audio Processing. Jeju : Octobre 2004 |
| Comité de lecture |
Oui |
| Année |
2004 |
| Statut éditorial |
Publié |
| Résumé |
This article is concerned with the estimation of fundamental frequencies in polyphonic signals for the case when the number of sources is known. We propose a new method for joint evaluation of multiple F0 hypotheses based on three physical principles: harmonicity, spectral smoothness and synchronous amplitude evolution within a single source, which are closely related to source segregation in auditory scene analysis. Given the observed spectrum a set of hypothetic partial sequences is derived and an optimal assignment of the observed peaks to the hypothetic sources and noise is performed. Hypothetic partial sequences are then evaluated by a new score function which formulates the guiding principles in a mathematical manner. The algorithm has been tested on a large collection of artificially mixed polyphonic samples and the encouraging results demonstrate the competitive performance of the proposed method. |
| Mots-clés |
Fundamental frequency estimation / polyphonic signals. |
| Equipe |
Analyse et synthèse sonores |
| Cote |
Yeh04b |
| Adresse de la version en ligne |
http://articles.ircam.fr/textes/Yeh04b/index.pdf |
|
