Towards Robust and Controllable Text-to-Motion via Masked Autoregressive Diffusion

Generating 3D human motion from text descriptions remains challenging due to the diverse and complex nature of human motion. While existing methods excel within the training distribution, they often struggle with out-of-distribution motions, limiting their applicability in real-world scenarios. Existing VQVAE-based methods often fail to represent novel motions faithfully using discrete tokens, which hampers their ability to generalize beyond seen data. Meanwhile, diffusion-based methods operating on continuous representations often lack fine-grained control over individual frames. To address these challenges, we propose a robust motion generation framework MoMADiff, which combines masked modeling with diffusion processes to generate motion using frame-level continuous representations. Our model supports flexible user-provided keyframe specification, enabling precise control over both spatial and temporal aspects of motion synthesis. MoMADiff demonstrates strong generalization capability on novel text-to-motion datasets with sparse keyframes as motion prompts. Extensive experiments on two held-out datasets and two standard benchmarks show that our method consistently outperforms state-of-the-art models in motion quality, instruction fidelity, and keyframe adherence.

@article{zhang2025_2505.11013,
  title={ Towards Robust and Controllable Text-to-Motion via Masked Autoregressive Diffusion },
  author={ Zongye Zhang and Bohan Kong and Qingjie Liu and Yunhong Wang },
  journal={arXiv preprint arXiv:2505.11013},
  year={ 2025 }
}