论文地址:基于动态注意的递归网络单耳语音增强 论文代码:https://github.com/Andong-Li-speech/DARCN 引用格式:Li, A., Zheng, C., Fan, C., Peng, R., Li, X. (2020) A Recursive Network with Dynamic Attention for Monaural Speech Enhancement. Proc. Interspeech 2020, 2422-2426 摘要 听觉动态注意理论已经…

论文地址:单耳语音增强的时频注意 引用格式:Zhang Q, Song Q, Ni Z, et al. Time-Frequency Attention for Monaural Speech Enhancement[C]//ICASSP 2022-2022 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP). IEEE, 2022: 7852-7856. 摘要 大多数语音增强研究通常…

论文地址:MetricGAN+:用于语音增强的 MetricGAN 的改进版本 论文代码:https://github.com/JasonSWFu/MetricGAN 引用格式:Fu S W, Yu C, Hsieh T A, et al. MetricGAN+: An Improved Version of MetricGAN for Speech Enhancement[J]. arXiv preprint arXiv:2104.03538, 2021. 摘要 用于训练语音增强模型的代价函数…

论文地址:面向基于深度学习的语音增强模型压缩 论文代码:没开源,鼓励大家去向作者要呀,作者是中国人,在语音增强领域 深耕多年 引用格式:Tan K, Wang D L. Towards model compression for deep learning based speech enhancem…

提出了模型和损失函数 论文名称:扩展卷积密集连接神经网络用于时域实时语音增强 论文代码:https://github.com/ashutosh620/DDAEC 引用:Pandey A, Wang D L. Densely connected neural network with dilated convolutions for real-time speech enhancement in the time domain[C]//ICASSP 2020-2020 IEEE Internati…

论文地址:FLGCNN:一种新颖的全卷积神经网络,用于基于话语的目标函数的端到端单耳语音增强 论文代码:https://github.com/LXP-Never/FLGCCRN(非官方复现) 引用格式:Zhu Y, Xu X, Ye Z. FLGCNN: A novel fully convolutional neural network for end-to-end monaural speech enhancement with utterance-based objective funct…

论文地址:两阶段深度网络的解耦幅度和相位优化 论文代码: 引用格式:Li A, Liu W, Luo X, et al. ICASSP 2021 deep noise suppression challenge: Decoupling magnitude and phase optimization with a two-stage deep network[C]//ICASSP 2021-2021 IEEE International Conference on Acoustics, Spee…

论文地址:用于端到端语音增强的卷积递归神经网络 论文代码:https://github.com/aleXiehta/WaveCRN 引用格式:Hsieh T A, Wang H M, Lu X, et al. WaveCRN: An efficient convolutional recurrent neural network for end-to-end speech enhancement[J]. IEEE Signal Processing Letters, 2020, 27: 2149…

论文地址:PACDNN:一种用于语音增强的相位感知复合深度神经网络 引用格式:Hasannezhad M,Yu H,Zhu W P,et al. PACDNN: A phase-aware composite deep neural network for speech enhancement[J]. Speech Communication,2022,136:1-13. 摘要 目前,利用深度神经网络(DNN)进行语音增强的大多数方法都面临着一些限制:它们没有利用相位谱中的信息,同时它们的高计算…

论文地址:DCCRN:用于相位感知语音增强的深度复杂卷积循环网络 论文代码:https://paperswithcode.com/paper/dccrn-deep-complex-convolution-recurrent-1 引用:Hu Y,Liu Y,Lv S,et al. DCCRN: Deep complex convolution recurrent network for phase-aware speech enhancement[J]. arXiv preprint arXiv:…