利用 MAMBA 联合频谱和空间学习进行多通道语音增强

Wenze Ren, Haibin Wu, Yi-Cheng Lin, Xuanjun Chen, Rong Chao, Kuo-Hsuan Hung, You-Jin Li, Wen-Yuan Ting, Hsin-Min Wang, Yu Tsao
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引用次数: 0

摘要

在多通道语音增强中,有效捕捉不同麦克风的空间和频谱信息对于降低噪声至关重要。CNN 或 LSTM 等传统方法试图对全频段和子频段的频谱和空间特征的时态动态进行建模。为了克服这些挑战,我们对现有的高级模型 McNet 进行了修改,引入了状态空间模型 Mamba 的改进版本,并进一步提出了 MCMamba。MCMamba 经过全新设计,将全波段和窄波段空间信息与子波段和全波段频谱特征整合在一起,为空间和频谱信息建模提供了更全面的方法。实验结果表明,MCMamba 显著改善了多通道语音增强中的空间和频谱特征建模,在 CHiME-3 数据集上的表现优于 McNet,达到了最先进的水平。此外,我们还发现 Mamba 在模拟频谱信息方面表现出色。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Leveraging Joint Spectral and Spatial Learning with MAMBA for Multichannel Speech Enhancement
In multichannel speech enhancement, effectively capturing spatial and spectral information across different microphones is crucial for noise reduction. Traditional methods, such as CNN or LSTM, attempt to model the temporal dynamics of full-band and sub-band spectral and spatial features. However, these approaches face limitations in fully modeling complex temporal dependencies, especially in dynamic acoustic environments. To overcome these challenges, we modify the current advanced model McNet by introducing an improved version of Mamba, a state-space model, and further propose MCMamba. MCMamba has been completely reengineered to integrate full-band and narrow-band spatial information with sub-band and full-band spectral features, providing a more comprehensive approach to modeling spatial and spectral information. Our experimental results demonstrate that MCMamba significantly improves the modeling of spatial and spectral features in multichannel speech enhancement, outperforming McNet and achieving state-of-the-art performance on the CHiME-3 dataset. Additionally, we find that Mamba performs exceptionally well in modeling spectral information.
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