In a previous work, Multi-Environment Model based LInear Normalization, MEMLIN, was presented and it was proved to be effective to compensate environment mismatch. MEMLIN is an empirical feature vector normalization which models clean and noisy spaces by Gaussian Mixture Models (GMMs). In this algorithm, the probability of the clean model Gaussian, given the noisy model one and the noisy feature vector (cross-probability model) is a critical point. In the previous work the cross-model probability was approximated as time-independent. In this paper, a time-dependent estimation of the cross-probability model based on GMM is proposed. Some experiments with SpeechDat Car database were carried out in order to study the performance of the proposed estimation in a real acoustic environment. MEMLIN with time-independent cross-probability model reached 70.21% of mean improvement in Word Error Rate (WER), however, when timedependent cross-probability model based on GMM was applied, the mean improvement in WER went up to 78.47%.
Cite as: Buera, L., Lleida, E., Nolazco-Flores, J.A., Miguel, A., Ortega, A. (2006) Time-dependent cross-probability model for multi-environment model based LInear normalization. Proc. Interspeech 2006, paper 1271-Wed1BuP.2, doi: 10.21437/Interspeech.2006-436
@inproceedings{buera06_interspeech,
author={Luis Buera and Eduardo Lleida and Juan A. Nolazco-Flores and Antonio Miguel and Alfonso Ortega},
title={{Time-dependent cross-probability model for multi-environment model based LInear normalization}},
year=2006,
booktitle={Proc. Interspeech 2006},
pages={paper 1271-Wed1BuP.2},
doi={10.21437/Interspeech.2006-436}
}