Hybrid convolutional neural networks for articulatory and acoustic information based speech recognition | SRI International

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Hybrid convolutional neural networks for articulatory and acoustic information based speech recognition

May, 2017
Publisher Name: 
Elsevier
Pages: 
103-112
Note: 
Citation 

Mitra, V., Sivaraman G., Nam H., Espy-Wilson C., Saltzman E. and Tiede M. (2017). Hybrid convolutional neural networks for articulatory and acoustic information based speech recognition. Speech Communication, Volume 89, pp. 103-112.   

Abstract 

Studies have shown that articulatory information helps model speech variability and, consequently, improves speech recognition performance. But learning speaker-invariant articulatory models is challenging, as speaker-specific signatures in both the articulatory and acoustic space increase complexity of speech-to-articulatory mapping, which is already an ill-posed problem due to its inherent nonlinearity and non-unique nature. This work explores using deep neural networks (DNNs) and convolutional neural networks (CNNs) for mapping speech data into its corresponding articulatory space. Our speech-inversion results indicate that the CNN models perform better than their DNN counterparts. In addition, we use these inverse-models to generate articulatory information from speech for two separate speech recognition tasks:  the WSJ1 and Aurora-4 continuous speech recognition tasks. This work proposes a hybrid convolutional neural network (HCNN), where two parallel layers are used to jointly model the acoustic and articulatory spaces, and the decisions from the parallel layers are fused at the output context-dependent (CD) state level. The acoustic model performs time-frequency convolution on filterbankenergy-level features, whereas the articulatory model performs time convolution on the articulatory features. The performance of the proposed architecture is compared to that of the CNN- and DNN-based systems using gammatone filterbank energies as acoustic features, and the results indicate that the HCNN-based model demonstrates lower word error rates compared to the CNN/DNN baseline systems.

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