语音去噪的贝叶斯层次模型

2018 IEEE International Conference on the Science of Electrical Engineering in Israel (ICSEE) Pub Date : 2018-12-01 DOI:10.1109/ICSEE.2018.8646189

Yaron Laufer, S. Gannot

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引用次数: 3

摘要

本文在层次贝叶斯框架中解决了无噪声情况下的语音去噪问题。我们的概率方法依赖于早期语音信号的高斯模型和相对早期传递函数(RETF)的多通道高斯模型。将后期混响建模为高斯加性干扰，语音和混响精度采用Gamma分布建模。我们推导了一种变分期望最大化(VEM)算法，该算法使用多通道维纳滤波器(MCWF)的变体来推断早期语音成分，同时抑制后期混响。我们使用声学实验室记录的真实房间脉冲响应(RIRs)进行了评估，混响时间设置为0.36秒和0.61秒。结果表明，该算法对混响信号有明显的改善，并且优于基准算法。在信道对准方面，证明了一种优越的信道估计。

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A Bayesian Hierarchical Model for Speech Dereverberation

In this paper, the problem of speech dereverberation in a noiseless scenario is addressed in a hierarchical Bayesian framework. Our probabilistic approach relies on a Gaussian model for the early speech signal combined with a multichannel Gaussian model for the relative early transfer function (RETF). The late reverberation is modelled as a Gaussian additive interference, and the speech and reverberation precisions are modelled with Gamma distribution. We derive a variational Expectation-Maximization (VEM) algorithm which uses a variant of the multichannel Wiener filter (MCWF) to infer the early speech component while suppressing the late reverberation. The proposed algorithm was evaluated using real room impulse responses (RIRs) recorded in our acoustic lab with a reverberation time set to 0.36 s and 0.61 s. It is shown that a significant improvement is obtained with respect to the reverberant signal, and that the proposed algorithm outperforms a baseline algorithm. In terms of channel alignment, a superior channel estimate is demonstrated.

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2018 IEEE International Conference on the Science of Electrical Engineering in Israel (ICSEE)

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