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JOURNAL ARTICLE

Large-vocabulary speaker-independent continuous speech recognition with semi-continuous hidden Markov models

Xuedong HuangHsiao-Wuen HonK. F. Lee

Year: 1989 Pages: 276-276
DOI: 10.3115/1075434.1075480
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Abstract

A semi-continuous hidden Markov model based on the multiple vector quantization codebooks is used here for large-vocabulary speaker-independent continuous speech recognition In the techniques employed here, the semi-continuous output probability density function for each codebook is represented by a combination of the corresponding discrete output probabilities of the hidden Markov model and the continuous Gaussian density functions of each individual codebook. Parameters of vector quantization codebook and hidden Markov model are mutually optimized to achieve an optimal model codebook combination under a unified probabilistic framework Another advantages of this approach is the enhanced robustness of the semi-continuous output probability by the combination of multiple codewords and multiple codebooks For a 1000-word speaker-independent continuous speech recognition using a word-pair grammar the recognition error rate of the semi-continuous hidden Markov model was reduced by more than 29% and 41% in comparison to the discrete and continuous mixture hidden Markov model respectively

Keywords:
Codebook Hidden Markov model Speech recognition Computer science Vector quantization Markov model Viterbi algorithm Pattern recognition (psychology) Artificial intelligence Markov process Word (group theory) Robustness (evolution) Hidden semi-Markov model Markov chain Mathematics Variable-order Markov model Machine learning Statistics

Metrics

14
Cited By
0.76
FWCI (Field Weighted Citation Impact)
18
Refs
0.81
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Speech Recognition and Synthesis
Physical Sciences →  Computer Science →  Artificial Intelligence
Speech and Audio Processing
Physical Sciences →  Computer Science →  Signal Processing
Blind Source Separation Techniques
Physical Sciences →  Computer Science →  Signal Processing

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