End-to-end feature fusion for jointly optimized speech enhancement and automatic speech recognition.

IF 3.8 2区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Scientific Reports Pub Date : 2025-07-02 DOI:10.1038/s41598-025-05057-2

Mohamed Medani, Nasir Saleem, Fethi Fkih, Manal Abdullah Alohali, Hela Elmannai, Sami Bourouis

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Abstract

Speech enhancement (SE) and automatic speech recognition (ASR) in real-time processing involve improving the quality and intelligibility of speech signals on the fly, ensuring accurate transcription as the speech unfolds. SE eliminates unwanted background noise from target speech in environments with high background noise levels, which is crucial in real-time ASR. This study first proposes a speech enhancement network based on an attentional-codec model. Its primary objective is to suppress noise in the target speech with minimal distortion. However, excessive noise suppression in the enhanced speech can potentially diminish the effectiveness of downstream ASR systems by excluding crucial latent information. While joint SE and ASR techniques have shown promise for achieving robust end-to-end ASR, they traditionally rely on using the enhanced features as inputs to the ASR systems. To address this limitation, our study uses a dynamic fusion approach. This approach integrates both the enhanced features and the raw noisy features, aiming to eliminate noise signals from the enhanced target speech while simultaneously learning fine details from the noisy signals. This fusion approach seeks to mitigate speech distortions, enhancing the overall performance of the ASR system. The proposed model consists of an attentional codec equipped with a causal attention mechanism for SE, a GRU-based fusion network, and an ASR system. The SE network uses a modified Gated Recurrent Unit (GRU), where the traditional hyperbolic tangent (tanh) is replaced by an attention-based rectified linear unit (AReLU). The SE experiments consistently obtain better speech quality, intelligibility, and noise suppression in matched and unmatched conditions than the baselines. With the LibriSpeech database, the proposed SE obtains better STOI (19.81%) and PESQ (28.97%) in matched conditions and unmatched conditions (STOI: 17.27% and PESQ: 27.51%). The joint training framework for robust end-to-end ASR evaluates the character error rate (CER). The ASR results find that the joint training framework reduces the error rate from 32.99% (average noisy signals) to 13.52% (with the proposed SE and joint training for ASR).

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端到端特征融合，共同优化语音增强和自动语音识别。

实时处理中的语音增强（SE）和自动语音识别（ASR）涉及提高动态语音信号的质量和可理解性，确保语音展开时的准确转录。在高背景噪声水平的环境中，SE消除了目标语音中不需要的背景噪声，这在实时ASR中至关重要。本研究首先提出一种基于注意-编解码器模型的语音增强网络。它的主要目的是在最小失真的情况下抑制目标语音中的噪声。然而，增强语音中的过度噪声抑制可能会通过排除关键的潜在信息而潜在地降低下游ASR系统的有效性。虽然联合SE和ASR技术已经显示出实现强大的端到端ASR的希望，但它们传统上依赖于使用增强的功能作为ASR系统的输入。为了解决这一限制，我们的研究使用了动态融合方法。该方法将增强特征与原始噪声特征相结合，旨在消除增强后目标语音中的噪声信号，同时从噪声信号中学习精细细节。这种融合方法旨在减轻语音失真，提高ASR系统的整体性能。该模型由一个带有SE因果注意机制的注意编解码器、一个基于gru的融合网络和一个ASR系统组成。SE网络使用改进的门控循环单元（GRU），其中传统的双曲正切（tanh）被基于注意力的整流线性单元（AReLU）所取代。在匹配和不匹配条件下，SE实验始终比基线获得更好的语音质量、可理解性和噪声抑制。在LibriSpeech数据库中，本文提出的SE在匹配条件和不匹配条件下（STOI: 17.27%, PESQ: 27.51%）获得了更好的STOI（19.81%）和PESQ（28.97%）。鲁棒端到端ASR联合训练框架评估字符错误率。ASR结果发现，联合训练框架将错误率从32.99%（平均噪声信号）降低到13.52%（提出的SE和ASR联合训练）。

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来源期刊

Scientific Reports Natural Science Disciplines-

CiteScore

7.50

自引率

4.30%

发文量

19567

审稿时长

3.9 months

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