实时语音分类和音高检测

COMSIG 88@m_Southern African Conference on Communications and Signal Processing. Proceedings Pub Date : 1988-06-24 DOI:10.1109/COMSIG.1988.49291

J. A. Marks

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引用次数: 15

摘要

描述了一种精确的静音-静音-浊音分类和音高检测算法，并对其在德州仪器TMS320C25数字信号处理器上的实时应用进行了评估。语音分类分为静音检测和语音不发音分类。在两种分类过程中只使用信号的能级和过零率。音高检测只需要对语音的浊音段进行操作。峰值拾取技术用于连续地在限定音高周期的峰值上定位。对发现的峰值执行测试，以确保它们是音高周期峰值。提出了一种将静音检测与信号采集相结合，将浊音分类与音高检测紧密结合的实时实现策略。静音检测任务是中断驱动的，基音检测任务是连续循环的。该算法的执行速度和准确性结果与文献中发表的其他此类算法相比具有优势。

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Real time speech classification and pitch detection

An accurate silence-unvoiced-voiced classification and pitch detection algorithm is described and its implementation for real-time applications on a Texas Instruments TMS320C25 digital signal processor is evaluated. Speech classification is separated into silence detection and voice-unvoiced classification. Only the signal's energy level and zero-crossing rate are used in both classification processes. Pitch detection need only operate on voiced periods of speech. A peak picking technique is used to successively home in on the peaks that bound the pitch periods. Tests are performed on the found peaks to ensure that they are pitch-period peaks. A real-time implementation strategy is developed that combines silence detection with the signal acquisition and tightly couples voiced-unvoiced classification with pitch detection. The silence detection task is interrupt-driven and the pitch detection task loops continuously. The execution speed and accuracy results for this algorithm are shown to compare favorably with those for other such algorithms published in the literature.<>

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COMSIG 88@m_Southern African Conference on Communications and Signal Processing. Proceedings

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