Difference between revisions of "WISS"
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<french>= Code source =</french> | <french>= Code source =</french> | ||
− | [https://github.com/introlab/WISS | + | <english>This project is open source and available for the Matlab/Octave environments on [https://github.com/introlab/WISS GitHub].</english> |
+ | <french>Le code source de ce projet est ouvert et disponible pour les environnements Matlab/Octave sur [https://github.com/introlab/WISS GitHub].</french> | ||
<english>= Videos =</english> | <english>= Videos =</english> |
Revision as of 15:00, 6 April 2013
Description
Artificial audition recently became popular in mobile robotics in order to enhance the human-robot interaction. Speech recognition is the main field of interest whereas speaker recognition receives little attention. The ManyEars system (based on the AUDIBLE project) allows a mobile robot to localize, track and separate multiple simultaneous sound sources. This system uses an array of eight microphones disposed in a cubic shape. This speaker recognition system, named WISS (Who IS Speaking), is coupled to the ManyEars system. This speaker recognition system is robust to noise and dynamic environments. Parallel model combination (PMC) and masks are used to increase the identification rate within a noisy environment. A confidence value is also introduced to weight the obtained identifications. The simplicity of this system makes it suitable for real-time applications on a General Purpose Processor (GPP).
Team[edit]
Source code[edit]
This project is open source and available for the Matlab/Octave environments on GitHub.
Videos[edit]
Publications
- Grondin, F., Michaud, F. (2012), "WISS, a Speaker Identification System for Mobile Robots," Proceedings of the International Conference on Robotics and Automation: 1817-1822 (pdf)
- Grondin, F., Reconnaissance de locuteurs pour robot mobile, Mémoire de maîtrise, Département de génie électrique et de génie informatique, Université de Sherbrooke. (pdf)