Traditional spectral subtraction-type single channel speech enhancement (SE) algorithms often need to estimate interference components including noise and/or reverberation before subtracting them while deep neural network-based SE methods often aim to realize the end-to-end target mapping. In this paper, we show that both denoising and dereverberation can be unified into a common problem by introducing a two-stage paradigm, namely for interference components estimation and speech recovery. In the first stage, we propose to explicitly extract the magnitude of interference components, which serves as the prior information. In the second stage, with the guidance of this estimated magnitude prior, we can expect to better recover the target speech. In addition, we propose a transform module to facilitate the interaction between interference components and the desired speech modalities. Meanwhile, a temporal fusion module is designed to model long-term dependencies without ignoring short-term details. We conduct the experiments on the WSJ0-SI84 corpus and the results on both denoising and dereverberation tasks show that our approach outperforms previous advanced systems and achieves state-of-the-art performance in terms of many objective metrics.
Cite as: Liu, W., Li, A., Ke, Y., Zheng, C., Li, X. (2021) Know Your Enemy, Know Yourself: A Unified Two-Stage Framework for Speech Enhancement. Proc. Interspeech 2021, 186-190, doi: 10.21437/Interspeech.2021-238
@inproceedings{liu21b_interspeech,
author={Wenzhe Liu and Andong Li and Yuxuan Ke and Chengshi Zheng and Xiaodong Li},
title={{Know Your Enemy, Know Yourself: A Unified Two-Stage Framework for Speech Enhancement}},
year=2021,
booktitle={Proc. Interspeech 2021},
pages={186--190},
doi={10.21437/Interspeech.2021-238}
}