DC-Motion: Decoupling Semantics and Details via Discrete-Continuous Tokens for Human Motion Generation

Published June 16, 2026 · Category: Robotics

Overview

arXiv:2606.14721v1 Announce Type: cross Abstract: Text-to-motion generation requires synthesizing physically realistic dynamics that strictly follow complex and long-horizon textual instructions. Existing approaches rely on homogeneous representation spaces that may fail to capture the hierarchical nature of human motion, with diffusion models struggling at compositional semantic reasoning and AR models sacrificing fine-grained physical details due to quantization. To solve it, we introduce DC-Motion, a factorized generative framework designed to explicitly decouple semantics and details via discrete-continuous tokens. A Discrete-Continuous VAE (DC-VAE) first decomposes motion into discrete tokens for semantics and continuous residuals for fine-grained dynamics. Then, a masked AR model predicts the discrete structure from text, and a lightweight residual diffusion model recovers the continuous physical details. Extensive experiments demonstrate that DC-Motion effectively improves the capability to follow complex instructions. By effectively balancing semantic controllability and physical realism, our approach offers a highly adaptable modeling paradigm for human motion generation. On both HumanML3D and KIT-ML datasets, DC-Motion achieves state-of-the-art performance, delivering the best FID for motion realism and R-precision for text alignment.

Source

Originally published at arxiv.org.

Related Articles

• PSYONIC partners with ABB Robotics to apply human touch to robot dexterity
• A Formal Resilience Framework for Cyber-Physical Embodied Systems under Device-Level Cyberattacks
• Decoupled Object-Centric Video Understanding for Generating Robotic Manipulation Commands