Learning Source Disentanglement in Neural Audio Codec

Xiaoyu Bie, Xubo Liu, Gaël Richard
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Abstract

Neural audio codecs have significantly advanced audio compression by efficiently converting continuous audio signals into discrete tokens. These codecs preserve high-quality sound and enable sophisticated sound generation through generative models trained on these tokens. However, existing neural codec models are typically trained on large, undifferentiated audio datasets, neglecting the essential discrepancies between sound domains like speech, music, and environmental sound effects. This oversight complicates data modeling and poses additional challenges to the controllability of sound generation. To tackle these issues, we introduce the Source-Disentangled Neural Audio Codec (SD-Codec), a novel approach that combines audio coding and source separation. By jointly learning audio resynthesis and separation, SD-Codec explicitly assigns audio signals from different domains to distinct codebooks, sets of discrete representations. Experimental results indicate that SD-Codec not only maintains competitive resynthesis quality but also, supported by the separation results, demonstrates successful disentanglement of different sources in the latent space, thereby enhancing interpretability in audio codec and providing potential finer control over the audio generation process.
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学习神经音频编解码器中的源解缠
神经音频编解码器通过有效地将连续音频信号转换为离散标记,大大推进了音频压缩技术的发展。这些编解码器保留了高质量的声音,并通过在这些标记上训练的生成模型实现了复杂的声音生成。然而,现有的神经编解码模型通常是在大型、无差别的音频数据集上训练的,忽略了语音、音乐和环境音效等声域之间的本质区别。这种疏忽使数据建模变得复杂,并对声音生成的可控性提出了更多挑战。为了解决这些问题,我们引入了源分离神经音频编解码器(SD-Codec),这是一种将音频编码与源分离相结合的新方法。通过联合学习音频合成和分离,SD-Codece 明确地将来自不同领域的音频信号分配给不同的编码本(离散表示集)。实验结果表明,SD-Codec 不仅保持了有竞争力的合成质量,而且在这些分离结果的支持下,成功地在潜空间中分离了不同来源,从而提高了音频编解码的可解释性,并为音频生成过程提供了更精细的控制潜力。
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