Adaptive selection of local and non-local attention mechanisms for speech enhancement

In speech enhancement tasks, local and non-local attention mechanisms have been significantly improved and well studied. However, a natural speech signal contains many dynamic and fast-changing acoustic features, and focusing on one type of attention mechanism (local or non-local) cannot precisely c...

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Bibliographic Details
Published in:Neural networks 2024-06, Vol.174, p.106236-106236, Article 106236
Main Authors: Xu, Xinmeng, Tu, Weiping, Yang, Yuhong
Format: Article
Language:English
Subjects:
Adaptive selection
Difficulty-adjusted reward
Local and non-local attention
Reinforcement learning
Speech enhancement
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Summary:In speech enhancement tasks, local and non-local attention mechanisms have been significantly improved and well studied. However, a natural speech signal contains many dynamic and fast-changing acoustic features, and focusing on one type of attention mechanism (local or non-local) cannot precisely capture the most discriminative information for estimating target speech from background interference. To address this issue, we introduce an adaptive selection network to dynamically select an appropriate route that determines whether to use the attention mechanisms and which to use for the task. We train the adaptive selection network using reinforcement learning with a developed difficulty-adjusted reward that is related to the performance, complexity, and difficulty of target speech estimation from the noisy mixtures. Consequently, we propose an Attention Selection Speech Enhancement Network (ASSENet) with the innovative dynamic block that consists of an adaptive selection network and a local and non-local attention based speech enhancement network. In particular, the ASSENet incorporates both local and non-local attention and develops the attention mechanism selection technique to explore the appropriate route of local and non-local attention mechanisms for speech enhancement tasks. The results show that our method achieves comparable and superior performance to existing approaches with attractive computational costs.
ISSN:0893-6080
1879-2782
DOI:10.1016/j.neunet.2024.106236