English

Learning Visual Quadrupedal Loco-Manipulation from Demonstrations

Robotics 2024-08-05 v2 Machine Learning

Abstract

Quadruped robots are progressively being integrated into human environments. Despite the growing locomotion capabilities of quadrupedal robots, their interaction with objects in realistic scenes is still limited. While additional robotic arms on quadrupedal robots enable manipulating objects, they are sometimes redundant given that a quadruped robot is essentially a mobile unit equipped with four limbs, each possessing 3 degrees of freedom (DoFs). Hence, we aim to empower a quadruped robot to execute real-world manipulation tasks using only its legs. We decompose the loco-manipulation process into a low-level reinforcement learning (RL)-based controller and a high-level Behavior Cloning (BC)-based planner. By parameterizing the manipulation trajectory, we synchronize the efforts of the upper and lower layers, thereby leveraging the advantages of both RL and BC. Our approach is validated through simulations and real-world experiments, demonstrating the robot's ability to perform tasks that demand mobility and high precision, such as lifting a basket from the ground while moving, closing a dishwasher, pressing a button, and pushing a door. Project website: https://zhengmaohe.github.io/leg-manip

Keywords

Cite

@article{arxiv.2403.20328,
  title  = {Learning Visual Quadrupedal Loco-Manipulation from Demonstrations},
  author = {Zhengmao He and Kun Lei and Yanjie Ze and Koushil Sreenath and Zhongyu Li and Huazhe Xu},
  journal= {arXiv preprint arXiv:2403.20328},
  year   = {2024}
}

Comments

Published at IROS 2024. Project website: https://zhengmaohe.github.io/leg-manip

R2 v1 2026-06-28T15:38:33.699Z