A DNN-based acoustic modeling of tonal language and its application to Mandarin pronunciation training

Abstract

In this paper we investigate a Deep Neural Network (DNN) based approach to acoustic modeling of tonal language and assess its speech recognition performance with different features and modeling techniques. Mandarin Chinese, the most widely spoken tonal language, is chosen for testing the tone related ASR performance. Furthermore, the DNN-trained, tone-sensitive model is evaluated in automatic detection of mispronunciation among L2 Mandarin learners. The best DNN-HMM acoustic model of tonal syllable (initial and tonal final), trained with embedded F0 features, has shown improved ASR performance, when compared with the baseline DNN system of 39 MFCC features. The proposed system achieves better ASR performance than the baseline system, i.e., by 32% and 35% in relative tone error rate reduction and 20% and 23% in relative tonal syllable error rate reduction, for female and male speakers, respectively. In a speech database of L2 Mandarin learners (native speakers of European languages), 2% equal error rate reduction, from 27.5% to 25.5%, has been obtained with our DNN-HMM system in detecting mispronunciations, compared with the baseline system.