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Autores principales: Ni, Haotian, Wei, Yake, Liu, Hang, Chen, Gong, Peng, Chong, Lin, Hao, Hu, Di
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2506.11465
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author Ni, Haotian
Wei, Yake
Liu, Hang
Chen, Gong
Peng, Chong
Lin, Hao
Hu, Di
author_facet Ni, Haotian
Wei, Yake
Liu, Hang
Chen, Gong
Peng, Chong
Lin, Hao
Hu, Di
contents Multimodal learning faces challenges in effectively fusing information from diverse modalities, especially when modality quality varies across samples. Dynamic fusion strategies, such as attention mechanism in Transformers, aim to address such challenge by adaptively emphasizing modalities based on the characteristics of input data. However, through amounts of carefully designed experiments, we surprisingly observed that the dynamic adaptability of widely-used self-attention models diminishes. Model tends to prefer one modality regardless of data characteristics. This bias triggers a self-reinforcing cycle that progressively overemphasizes the favored modality, widening the distribution gap in attention keys across modalities and deactivating attention mechanism's dynamic properties. To revive adaptability, we propose a simple yet effective method Rolling Query (RollingQ), which balances attention allocation by rotating the query to break the self-reinforcing cycle and mitigate the key distribution gap. Extensive experiments on various multimodal scenarios validate the effectiveness of RollingQ and the restoration of cooperation dynamics is pivotal for enhancing the broader capabilities of widely deployed multimodal Transformers. The source code is available at https://github.com/GeWu-Lab/RollingQ_ICML2025.
format Preprint
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publishDate 2025
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spellingShingle RollingQ: Reviving the Cooperation Dynamics in Multimodal Transformer
Ni, Haotian
Wei, Yake
Liu, Hang
Chen, Gong
Peng, Chong
Lin, Hao
Hu, Di
Machine Learning
Artificial Intelligence
Computer Vision and Pattern Recognition
Multimodal learning faces challenges in effectively fusing information from diverse modalities, especially when modality quality varies across samples. Dynamic fusion strategies, such as attention mechanism in Transformers, aim to address such challenge by adaptively emphasizing modalities based on the characteristics of input data. However, through amounts of carefully designed experiments, we surprisingly observed that the dynamic adaptability of widely-used self-attention models diminishes. Model tends to prefer one modality regardless of data characteristics. This bias triggers a self-reinforcing cycle that progressively overemphasizes the favored modality, widening the distribution gap in attention keys across modalities and deactivating attention mechanism's dynamic properties. To revive adaptability, we propose a simple yet effective method Rolling Query (RollingQ), which balances attention allocation by rotating the query to break the self-reinforcing cycle and mitigate the key distribution gap. Extensive experiments on various multimodal scenarios validate the effectiveness of RollingQ and the restoration of cooperation dynamics is pivotal for enhancing the broader capabilities of widely deployed multimodal Transformers. The source code is available at https://github.com/GeWu-Lab/RollingQ_ICML2025.
title RollingQ: Reviving the Cooperation Dynamics in Multimodal Transformer
topic Machine Learning
Artificial Intelligence
Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2506.11465