English

Learning Geometry-Aware Nonprehensile Pushing and Pulling with Dexterous Hands

Robotics 2026-04-10 v4

Abstract

Nonprehensile manipulation, such as pushing and pulling, enables robots to move, align, or reposition objects that may be difficult to grasp due to their geometry, size, or relationship to the robot or the environment. Much of the existing work in nonprehensile manipulation relies on parallel-jaw grippers or tools such as rods and spatulas. In contrast, multi-fingered dexterous hands offer richer contact modes and versatility for handling diverse objects to provide stable support over the objects, which compensates for the difficulty of modeling the dynamics of nonprehensile manipulation. Therefore, we propose Geometry-aware Dexterous Pushing and Pulling(GD2P) for nonprehensile manipulation with dexterous robotic hands. We study pushing and pulling by framing the problem as synthesizing and learning pre-contact dexterous hand poses that lead to effective manipulation. We generate diverse hand poses via contact-guided sampling, filter them using physics simulation, and train a diffusion model conditioned on object geometry to predict viable poses. At test time, we sample hand poses and use standard motion planners to select and execute pushing and pulling actions. We perform extensive real-world experiments with an Allegro Hand and a LEAP Hand, demonstrating that GD2P offers a scalable route for generating dexterous nonprehensile manipulation motions with its applicability to different hand morphologies. Our project website is available at: geodex2p.github.io.

Keywords

Cite

@article{arxiv.2509.18455,
  title  = {Learning Geometry-Aware Nonprehensile Pushing and Pulling with Dexterous Hands},
  author = {Yunshuang Li and Yiyang Ling and Gaurav S. Sukhatme and Daniel Seita},
  journal= {arXiv preprint arXiv:2509.18455},
  year   = {2026}
}

Comments

Published at International Conference on Robotics and Automation (ICRA) 2026

R2 v1 2026-07-01T05:51:02.161Z