MLLR和MAP在远场噪声混响下的语音识别研究

自适应技术可以用较少的数据来调整声学模型参数，从而达到较好的语音识别效果，它们大多用于自适应有口音的语音。将最大似然线性回归（Maximum Likelihood Linear Regression，MLLR）、最大后验概率（Maximum A Posteriori，MAP）自适应技术用在远场噪声混响环境下来分析其在此环境下的识别性能。实验结果表明，仿真条件下，在墙壁反射系数为0.6，各种噪声环境下MAP有最好的自适应性能，在信噪比（Signal-to-Noise Ratio，SNR）分别为5 dB、10 dB、15 dB时，MAP使远场连续语音词错率（Word Error Rate，WER）平均降低了1.51%、12.82%、2.95%。真实条件下，MAP使WER下降幅度最大达到了37.13%。进一步验证了MAP良好的渐进性，且当自适应句数为1 000时，用MAP声学模型自适应方法得到的远场噪声混响连续语音的识别词错率比自适应前平均降低了12.5%。

Speech Recognition Based on MLLR and MAP Under Distant Noise Reverberation Environment

Adaptive technology can adjust the acoustic model parameters with less data to achieve better speech recognition effect. Most of them are used to adapt to accented speech. In this paper, Maximum Likelihood Linear Regression（MLLR） and Maximum A Posteriori（MAP） adaptive techniques are used in distant noise reverberation environment to analyze their recognition performance in this background. The experimental results show that under the simulation conditions, the reflection coefficient of the wall is 0.6, and the MAP has the best adaptive performance under various noise environments. When the Signal-to-Noise Ratio（SNR） is 5 dB, 10 dB, 15 dB, respectively, MAP reduces the Word Error Rate（WER） by 1.51%, 12.82% and 2.95% on average. Under real conditions, MAP reduces the WER to a maximum of 37.13%. On this basis, the good graduality of MAP is verified. When the number of adaptive sentences is 1000, the WER of distant noise reverberation continuous speech obtained by MAP acoustic model adaptive method is 12.5% lower than that precious adaptive period.