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Multichannel Speech Enhancement by Raw Waveform-Mapping Using Fully Convolutional Networks

Changle Liu, Szu‐Wei Fu, You-Jin Li, Jen-Wei Huang, Hsin‐Min Wang, Yu Tsao

2020IEEE/ACM Transactions on Audio Speech and Language Processing63 citationsDOIOpen Access PDF

Abstract

In recent years, waveform-mapping-based speech enhancement (SE) methods have garnered significant attention. These methods generally use a deep learning model to directly process and reconstruct speech waveforms. Because both the input and output are in waveform format, the waveform-mapping-based SE methods can overcome the distortion caused by imperfect phase estimation, which may be encountered in spectral-mapping-based SE systems. So far, most waveform-mapping-based SE methods have focused on single-channel tasks. In this article, we propose a novel fully convolutional network (FCN) with Sinc and dilated convolutional layers (termed SDFCN) for multichannel SE that operates in the time domain. We also propose an extended version of SDFCN, called the residual SDFCN (termed rSDFCN). The proposed methods are evaluated on three multichannel SE tasks, namely the dual-channel inner-ear microphones SE task, the distributed microphones SE task, and the CHiME-3 dataset. The experimental results confirm the outstanding denoising capability of the proposed SE systems on the three tasks and the benefits of using the residual architecture on the overall SE performance.

Topics & Concepts

WaveformComputer scienceResidualSpeech recognitionSpeech enhancementArtificial intelligenceConvolutional neural networkProcess (computing)Channel (broadcasting)Time domainDistortion (music)Task (project management)Pattern recognition (psychology)Noise reductionAlgorithmTelecommunicationsComputer visionEngineeringAmplifierSystems engineeringBandwidth (computing)RadarOperating systemSpeech and Audio ProcessingAdvanced Adaptive Filtering TechniquesHearing Loss and Rehabilitation
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