A Fast Adaptation Approach for Enhanced Automatic Recognition of Children’s Speech with Mismatched Acoustic Models

This study explores issues in automatic speech recognition (ASR) of children’s speech on acoustic models trained using adults’ speech. For acoustic modeling in ASR, the employed front-end features capture the characteristics of the vocal filter while smoothing out those of the source (excitation). A...

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Bibliographic Details
Published in:Circuits, systems, and signal processing systems, and signal processing, 2018-03, Vol.37 (3), p.1098-1115
Main Authors: Shahnawazuddin, S., Sinha, Rohit
Format: Article
Language:English
Subjects:
Acoustics
Adaptation
Address forms
Adults
Automatic speech recognition
Children
Circuits and Systems
Covariance
Electrical Engineering
Electronics and Microelectronics
Engineering
Formants
Harmonics
Instrumentation
Mathematical models
Parameter estimation
Pitch
Projection
Scaling (Speech recognition)
Scaling factors
Signal,Image and Speech Processing
Smoothing
Speech rate
Speech recognition
Vocal tract
Voice recognition
Warp
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Summary:This study explores issues in automatic speech recognition (ASR) of children’s speech on acoustic models trained using adults’ speech. For acoustic modeling in ASR, the employed front-end features capture the characteristics of the vocal filter while smoothing out those of the source (excitation). Adults’ and children’s speech differ significantly due to large deviation in the acoustic correlates such as pitch, formants, speaking rate, etc. In the context of children’s speech recognition on mismatched acoustic models, the recognition rates remain highly degraded despite use of the vocal tract length normalization (VTLN) for addressing formant mismatch. For commonly used mel-filterbank-based cepstral features, earlier studies have shown that the acoustic mismatch is exacerbated by insufficient smoothing of pitch harmonics for child speakers. To address this problem, a structured low-rank projection of the test features as well as that of the mean and the covariance parameters of the acoustic models was explored in an earlier work. In this paper, a low-latency adaptation scheme is presented for children’s mismatched ASR. The presented fast adaptation approach exploits the earlier reported low-rank projection technique in order to reduce the computational cost. In the proposed approach, developmental data from the children’s domain is partitioned into separate groups on the basis of their estimated VTLN warp factors. A set of adapted acoustic models is then created by combining the low-rank projection with the model space adaptation technique for each of the warp factors. Given the children’s test utterance, first an appropriate pre-adapted model mean supervector is chosen based on its estimated warp factor. The chosen supervector is then optimally scaled. Consequently, only two parameters are required to be estimated, i.e., a warp factor and a model mean scaling factor. Even with such stringent constraints, the proposed adaptation technique results in a relative improvement of about 44 % over the VTLN included baseline.
ISSN:0278-081X
1531-5878
DOI:10.1007/s00034-017-0586-6