基于ICA和几何学习的文本连续语音识别

IEEE International Conference on Granular Computing Pub Date : 2006-05-10 DOI:10.1109/GRC.2006.1635877

Wenming Cao, Tiancheng He, Shoujue Wang

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引用次数: 0

摘要

我们研究了在数字语音识别系统中使用独立分量分析(ICA)进行语音特征提取。我们观察到，这可能适用于基于训练数据较少的几何学习的识别任务。与图像处理相反，相位信息对于数字语音识别来说并不是必需的。因此，我们提出了一种新的方案，该方案显示了如何通过使用ica适应基函数的解析描述来去除相灵敏度。此外，由于基函数不是移位不变的，我们扩展了该方法，以包括基于频率的ICA级，该级可以去除冗余的时移信息。数字语音识别结果显示了良好的准确性。实验表明，基于ICA和几何学习的方法在不同数量的训练样本上都优于HMM。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Text-continuous speech recognition based on ICA and geometrical learning

We investigate the use of independent component analysis (ICA) for speech feature extraction in digits speech recognition systems. We observe that this may be true for recognition tasks based on Geometrical Learning with little training data. In contrast to image processing, phase information is not essential for digits speech recognition. We therefore propose a new scheme that shows how the phase sensitivity can be removed by using an analytical description of the ICA-adapted basis functions. Furthermore, since the basis functions are not shift invariant, we extend the method to include a frequency-based ICA stage that removes redundant time shift information. The digits speech recognition results show promising accuracy. Experiments show that the method based on ICA and Geometrical Learning outperforms HMM in a different number of training samples.

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IEEE International Conference on Granular Computing

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