语音识别中mel频率倒谱系数的定点优化

Ge Zhang, Jinghua Yin, Li-Yu Daisy Liu, Chao Yang
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引用次数: 8

摘要

语音识别是一个计算复杂的过程,它适用于电池供电的设备,如手机和其他个人pda。特别是mel-scale频率倒谱系数部分(mfccc)是一个降维过程,目的是为了减少资源以准确描述语音样本。将优化后的算法应用于基于二进制搜索的查找表中,取代了原来的Taylor展开算法,减少了执行帧的时间,满足了实时语音识别系统的要求。本文通过对伪代码的分析,建立了查找表,以减小内存大小。为了在Log算法的线性插值的一阶逼近中达到更高的精度,研究了浮点MFCCs向定点MFCCs的过渡算法。利用隐马尔可夫模型Toolke (HTK)对德州仪器和麻省理工学院的语音样本进行训练。在语音识别系统中,优化算法的语音识别率提高了12.02%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The fixed-point optimization of mel frequency cepstrum coefficients for speech recognition
Speech recognition is a computationally complexity process and it is suitable for battery powered devices like mobile phones and other personal PDAs. Particularly the parts of mel-scaled frequency cepstrum coefficients (MFCCs) are a process of dimension reduction for reducing resources to accurately describe speech samples. The optimized algorithm was applied to a binary-search-based look-up table to take place of original Taylor expansion algorithm, and it reduced the time of execution frames to meet real-time speech recognition system. The look-up tables were established by analysing the pseudo code to reduce the memory size in this paper. The transition algorithm of floating-point MFCCs to fixed-point ones was investigated to reach a higher precision in the first order approximation of linear interpolation of Log algorithm. The Hidden Markov Model Toolke (HTK) was applied to training the speech samples of Texas Instruments and Massachusetts Institute of Technology (TIMIT). The rate of speech recognition improved 12.02% by the optimized algorithm in the system of speech recognition.
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