Semantic Grouping Network for Audio Source Separation

arXiv - CS - Sound Pub Date : 2024-07-04 DOI:arxiv-2407.03736

Shentong Mo, Yapeng Tian

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Abstract

Recently, audio-visual separation approaches have taken advantage of the natural synchronization between the two modalities to boost audio source separation performance. They extracted high-level semantics from visual inputs as the guidance to help disentangle sound representation for individual sources. Can we directly learn to disentangle the individual semantics from the sound itself? The dilemma is that multiple sound sources are mixed together in the original space. To tackle the difficulty, in this paper, we present a novel Semantic Grouping Network, termed as SGN, that can directly disentangle sound representations and extract high-level semantic information for each source from input audio mixture. Specifically, SGN aggregates category-wise source features through learnable class tokens of sounds. Then, the aggregated semantic features can be used as the guidance to separate the corresponding audio sources from the mixture. We conducted extensive experiments on music-only and universal sound separation benchmarks: MUSIC, FUSS, MUSDB18, and VGG-Sound. The results demonstrate that our SGN significantly outperforms previous audio-only methods and audio-visual models without utilizing additional visual cues.

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用于音源分离的语义分组网络

最近，视听分离方法利用两种模态之间的自然同步来提高音源分离性能。他们从视觉输入中提取高级语义作为指导，以帮助分离个体声源的声音表征。我们能否直接学习从声音本身分离出单个语义呢？我们面临的难题是，多个声源在原始空间中混杂在一起。为了解决这个难题，我们在本文中提出了一种新颖的语义分组网络（Semantic Grouping Network，简称 SGN），它可以直接从输入的音频混合物中分离出声音表示并提取每个声源的高级语义信息。具体来说，SGN 通过可学习的声音类别标记来聚合类别化的声源特征。然后，聚合的语义特征可用作从混合物中分离相应音源的指导。我们在纯音乐和通用声音分离基准上进行了大量实验：这些基准包括：MUSIC、FUSS、MUSDB18 和 VGG-Sound。结果表明，在不使用额外视觉线索的情况下，我们的 SGN 明显优于以前的纯音频方法和视听模型。

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arXiv - CS - Sound

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