Improving large vocabulary continuous speech recognition by combining GMM-based and reservoir-based acoustic modeling

2012 IEEE Spoken Language Technology Workshop (SLT) Pub Date : 2012-12-01 DOI:10.1109/SLT.2012.6424206
Fabian Triefenbach, Kris Demuynck, J. Martens
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引用次数: 5

Abstract

In earlier work we have shown that good phoneme recognition is possible with a so-called reservoir, a special type of recurrent neural network. In this paper, different architectures based on Reservoir Computing (RC) for large vocabulary continuous speech recognition are investigated. Besides experiments with HMM hybrids, it is shown that a RC-HMM tandem can achieve the same recognition accuracy as a classical HMM, which is a promising result for such a fairly new paradigm. It is also demonstrated that a state-level combination of the scores of the tandem and the baseline HMM leads to a significant improvement over the baseline. A word error rate reduction of the order of 20% relative is possible.
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结合基于gmm和基于储层的声学建模改进大词汇量连续语音识别
在早期的工作中,我们已经表明,良好的音素识别可能与所谓的水库,一种特殊类型的循环神经网络。本文研究了基于储层计算(RC)的大词汇量连续语音识别体系结构。通过对混合隐马尔可夫模型的实验表明,RC-HMM串联模型可以达到与经典隐马尔可夫模型相同的识别精度,这对于这样一个全新的模型来说是一个很有希望的结果。研究还表明,串联和基线HMM得分的国家级组合导致比基线显著改善。单词错误率相对降低20%是可能的。
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2012 IEEE Spoken Language Technology Workshop (SLT)
2012 IEEE Spoken Language Technology Workshop (SLT)
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