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Main Authors: Sun, Houmin, Hu, Zi, Li, Linxi, Wang, Yechen, Jin, Liwei, Li, Ming
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.16805
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author Sun, Houmin
Hu, Zi
Li, Linxi
Wang, Yechen
Jin, Liwei
Li, Ming
author_facet Sun, Houmin
Hu, Zi
Li, Linxi
Wang, Yechen
Jin, Liwei
Li, Ming
contents Modern audio is created by mixing stems from different sources, raising the question: can we independently watermark each stem and recover all watermarks after separation? We study a separation-first, multi-stream watermarking framework-embedding distinct information into stems using unique keys but a shared structure, mixing, separating, and decoding from each output. A naive pipeline (robust watermarking + off-the-shelf separation) yields poor bit recovery, showing robustness to generic distortions does not ensure robustness to separation artifacts. To enable this, we jointly train the watermark system and the separator in an end-to-end manner, encouraging the separator to preserve watermark cues while adapting embedding to separation-specific distortions. Experiments on speech+music and vocal+accompaniment mixtures show substantial gains in post-separation recovery while maintaining perceptual quality.
format Preprint
id arxiv_https___arxiv_org_abs_2603_16805
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Making Separation-First Multi-Stream Audio Watermarking Feasible via Joint Training
Sun, Houmin
Hu, Zi
Li, Linxi
Wang, Yechen
Jin, Liwei
Li, Ming
Sound
Modern audio is created by mixing stems from different sources, raising the question: can we independently watermark each stem and recover all watermarks after separation? We study a separation-first, multi-stream watermarking framework-embedding distinct information into stems using unique keys but a shared structure, mixing, separating, and decoding from each output. A naive pipeline (robust watermarking + off-the-shelf separation) yields poor bit recovery, showing robustness to generic distortions does not ensure robustness to separation artifacts. To enable this, we jointly train the watermark system and the separator in an end-to-end manner, encouraging the separator to preserve watermark cues while adapting embedding to separation-specific distortions. Experiments on speech+music and vocal+accompaniment mixtures show substantial gains in post-separation recovery while maintaining perceptual quality.
title Making Separation-First Multi-Stream Audio Watermarking Feasible via Joint Training
topic Sound
url https://arxiv.org/abs/2603.16805