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MambAttention: Mamba With Multi-Head Attention for Generalizable Single-Channel Speech Enhancement

计算机科学 一般化 过度拟合 判别式 语音识别 语音增强 人工智能 水准点(测量) 机器学习 代表(政治) 噪音(视频) 序列(生物学) 边距(机器学习) 生成模型 生成语法 语言模型 语音处理 深度学习 模仿 序列学习 自然语言处理
作者
Nikolai Lund Kühne,Jesper Jensen,Jan Østergaard,Zheng‐Hua Tan
标识
DOI:10.1109/taslpro.2026.3656023
摘要

With the advent of new sequence models like Mamba and xLSTM, several studies have shown that these models match or outperform the state-of-the-art in single-channel speech enhancement and self-supervised audio representation learning. However, prior research has demonstrated that sequence models like LSTM and Mamba tend to overfit to the training set. To address this issue, previous works have shown that adding self-attention to LSTMs substantially improves generalization performance for single-channel speech enhancement. Nevertheless, neither the concept of hybrid Mamba and time-frequency attention models nor their generalization performance have been explored for speech enhancement. In this paper, we propose a novel hybrid architecture, MambAttention, which combines Mamba and shared time- and frequency-multi-head attention modules for generalizable single-channel speech enhancement. To train our model, we introduce VB-DemandEx, a dataset inspired by VoiceBank+Demand but with more challenging noise types and lower signal-to-noise ratios. Trained on VB-DemandEx, MambAttention significantly outperforms existing state-of-the-art discriminative LSTM-, xLSTM-, Mamba-, and Conformer-based systems of similar complexity across all reported metrics on two out-of-domain datasets: DNS 2020 without reverberation and EARS-WHAM_v2. MambAttention also matches or outperforms generative models such as diffusion models in generalization performance while being competitive with language model baselines. Ablation studies highlight the importance of weight sharing between time- and frequency-multi-head attention modules for generalization performance. Finally, we explore integrating the shared time- and frequency-multi-head attention modules with LSTM and xLSTM, which yields a notable performance improvement on the out-of-domain datasets. However, MambAttention remains superior for cross-corpus generalization across all reported evaluation metrics.
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