低信噪比语音增强的噪声RETF估计与去除

2021 IEEE 31st International Workshop on Machine Learning for Signal Processing (MLSP) Pub Date : 2021-10-25 DOI:10.1109/mlsp52302.2021.9596209

Lachlan I. Birnie, P. Samarasinghe, T. Abhayapala, Daniel Grixti-Cheng

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引用次数: 1

摘要

提出了一种在高噪声环境下实现双麦克风离线语音增强的方法，信噪比为−10 ~−20 dB。虽然语音增强的主题研究得很好，但很少有方法开发来解决这种显著的噪声条件。具体地说，我们感兴趣的是从难以理解的录音中去除噪声，这样产生的去噪语音内容对人类听众来说是可以理解的。我们提出在语音增强算法中利用相对传递函数(Relative Transfer Function, ReTF)这一噪声源的空间特征。我们用时域机器学习结构对噪声源ReTF建模，从混合中估计和减去噪声信号。提出了一种基于线性滤波和自动编码器的结构。对于单个干扰噪声源，语音可理解性提高到比基准oracle理想二进制掩码(IBM)的短时客观可理解性(STOI)分数低9%以内。

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Noise RETF Estimation and Removal for Low SNR Speech Enhancement

A method for offline two-microphone speech enhancement in highly adverse noisy environments with signal-to-noise (SNR) ratios of −10 to −20 dB is proposed. While the topic of speech enhancement is well researched, there are very few methods developed to address such significant noise conditions. Specifically, we are interested in removing noise from unintelligible recordings such that the resulting denoised speech content is understandable to human listeners. We propose exploiting the Relative Transfer Function (ReTF), a spatial feature of the noise source in a speech enhancement algorithm. We model the noise source ReTF with a time-domain machine learning structure to estimate and subtract the noise signal from the mixture. Both a linear filtering and an autoen-coder based structure are proposed. For a single interfering noise source, speech intelligibility is improved to within 9% below the Short-Time Objective Intelligibility (STOI) score of the benchmark oracle Ideal Binary Mask (IBM).

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2021 IEEE 31st International Workshop on Machine Learning for Signal Processing (MLSP)

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