Action-Geometry Prediction with 3D Geometric Prior for Bimanual Manipulation
- URL: http://arxiv.org/abs/2602.23814v1
- Date: Fri, 27 Feb 2026 08:54:20 GMT
- Title: Action-Geometry Prediction with 3D Geometric Prior for Bimanual Manipulation
- Authors: Chongyang Xu, Haipeng Li, Shen Cheng, Jingyu Hu, Haoqiang Fan, Ziliang Feng, Shuaicheng Liu,
- Abstract summary: Bimanual manipulation requires policies that can reason about 3D geometry, anticipate how it evolves under action, and generate smooth, coordinated motions.<n>We propose a framework that builds bimanual manipulation directly on a pre-trained 3D geometric foundation model.<n>Our policy fuses geometry-aware latents, 2D semantic features, and proprioception into a unified state representation, and uses diffusion model to jointly predict a future action chunk and a future 3D latent that decodes into a dense pointmap.
- Score: 53.09168514034483
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Bimanual manipulation requires policies that can reason about 3D geometry, anticipate how it evolves under action, and generate smooth, coordinated motions. However, existing methods typically rely on 2D features with limited spatial awareness, or require explicit point clouds that are difficult to obtain reliably in real-world settings. At the same time, recent 3D geometric foundation models show that accurate and diverse 3D structure can be reconstructed directly from RGB images in a fast and robust manner. We leverage this opportunity and propose a framework that builds bimanual manipulation directly on a pre-trained 3D geometric foundation model. Our policy fuses geometry-aware latents, 2D semantic features, and proprioception into a unified state representation, and uses diffusion model to jointly predict a future action chunk and a future 3D latent that decodes into a dense pointmap. By explicitly predicting how the 3D scene will evolve together with the action sequence, the policy gains strong spatial understanding and predictive capability using only RGB observations. We evaluate our method both in simulation on the RoboTwin benchmark and in real-world robot executions. Our approach consistently outperforms 2D-based and point-cloud-based baselines, achieving state-of-the-art performance in manipulation success, inter-arm coordination, and 3D spatial prediction accuracy. Code is available at https://github.com/Chongyang-99/GAP.git.
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