UniMuMo: Unified Text, Music, and Motion Generation

Authors

  • Han Yang The Chinese University of Hong Kong
  • Kun Su University of Washington
  • Yutong Zhang University of British Columbia
  • Jiaben Chen University of Massachusetts at Amherst
  • Kaizhi Qian MIT-IBM Watson AI Lab
  • Gaowen Liu Cisco Research
  • Chuang Gan University of Massachusetts at Amherst

DOI:

https://doi.org/10.1609/aaai.v39i24.34752

Abstract

We introduce UniMuMo, a unified multimodal model capable of taking arbitrary text, music, and motion data as input conditions to generate outputs across all three modalities. To address the lack of time-synchronized data, we align unpaired music and motion data based on rhythmic patterns to leverage existing large-scale music-only and motion-only datasets. By converting music, motion, and text into token-based representation, our model bridges these modalities through a unified encoder-decoder transformer architecture. To support multiple generation tasks within a single framework, we introduce several architectural improvements. We propose encoding motion with a music codebook, mapping motion into the same feature space as music. We introduce a music-motion parallel generation scheme that unifies all music and motion generation tasks into a single transformer decoder architecture with a single training task of music-motion joint generation. Moreover, the model is designed by fine-tuning existing pre-trained single-modality models, significantly reducing computational demands. Extensive experiments demonstrate that UniMuMo achieves competitive results on all unidirectional generation benchmarks across music, motion, and text modalities.

Published

2025-04-11

How to Cite

Yang, H., Su, K., Zhang, Y., Chen, J., Qian, K., Liu, G., & Gan, C. (2025). UniMuMo: Unified Text, Music, and Motion Generation. Proceedings of the AAAI Conference on Artificial Intelligence, 39(24), 25615–25623. https://doi.org/10.1609/aaai.v39i24.34752

Issue

Section

AAAI Technical Track on Natural Language Processing III