Local Multimodal Music Alignment from Global Supervision
Abstract
Understanding music requires understanding localized relationships across data modalities, e.g., how time in performance audio maps onto position in a score image. Yet supervision for such local correspondences is difficult to obtain-in practice, we often only have access to coarser global supervision like paired segments of audio and images. To address this gap, we propose FuSiLi (Fused Sinkhorn-Localized Similarity), a similarity score for multimodal contrastive learning operating directly on local image patch and audio frame features via Sinkhorn-based soft alignment. We show that FuSiLi (i) effectively learns local relationships, (ii) requires only global supervision, and (iii) retains the global alignment capabilities of conventional contrastive approaches. We fine-tune pretrained CLIP and CLAP encoders on pairs of raw sheet music images and audio using a hybrid contrastive objective combining FuSiLi with conventional global similarity. We evaluate on cross-modal retrieval and frame-level alignment tasks against a range of global and local baselines, showing that our approach outperforms them on local alignment while remaining competitive on retrieval.
Cite
@article{arxiv.2607.10023,
title = {Local Multimodal Music Alignment from Global Supervision},
author = {Irmak Bukey and Zachary Novack and Jongmin Jung and Dasaem Jeong and Chris Donahue},
journal= {arXiv preprint arXiv:2607.10023},
year = {2026}
}
Comments
ISMIR 2026