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Main Authors: Zhang, Zhe, Xie, Peijia, Pang, Yuhan, Sun, Zhirui, Xia, Bingyi, Zhu, Bi-Ke, Wang, Jiankun
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.18410
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author Zhang, Zhe
Xie, Peijia
Pang, Yuhan
Sun, Zhirui
Xia, Bingyi
Zhu, Bi-Ke
Wang, Jiankun
author_facet Zhang, Zhe
Xie, Peijia
Pang, Yuhan
Sun, Zhirui
Xia, Bingyi
Zhu, Bi-Ke
Wang, Jiankun
contents Precise and flexible cart-pushing is a challenging task for mobile robots. The motion constraints during cart-pushing and the robot's redundancy lead to complex motion planning problems, while variable payloads and disturbances present complicated dynamics. In this work, we propose a novel planning and control framework for flexible whole-body coordination and robust adaptive control. Our motion planning method employs a local coordinate representation and a novel kinematic model to solve a nonlinear optimization problem, thereby enhancing motion maneuverability by generating feasible and flexible push poses. Furthermore, we present a disturbance rejection control method to resist disturbances and reduce control errors for the complex control problem without requiring an accurate dynamic model. We validate our method through extensive experiments in simulation and real-world settings, demonstrating its superiority over existing approaches. To the best of our knowledge, this is the first work to systematically evaluate the flexibility and robustness of cart-pushing methods in experiments. The video supplement is available at https://sites.google.com/view/mpac-pushing/.
format Preprint
id arxiv_https___arxiv_org_abs_2506_18410
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Integrating Maneuverable Planning and Adaptive Control for Robot Cart-Pushing under Disturbances
Zhang, Zhe
Xie, Peijia
Pang, Yuhan
Sun, Zhirui
Xia, Bingyi
Zhu, Bi-Ke
Wang, Jiankun
Robotics
Precise and flexible cart-pushing is a challenging task for mobile robots. The motion constraints during cart-pushing and the robot's redundancy lead to complex motion planning problems, while variable payloads and disturbances present complicated dynamics. In this work, we propose a novel planning and control framework for flexible whole-body coordination and robust adaptive control. Our motion planning method employs a local coordinate representation and a novel kinematic model to solve a nonlinear optimization problem, thereby enhancing motion maneuverability by generating feasible and flexible push poses. Furthermore, we present a disturbance rejection control method to resist disturbances and reduce control errors for the complex control problem without requiring an accurate dynamic model. We validate our method through extensive experiments in simulation and real-world settings, demonstrating its superiority over existing approaches. To the best of our knowledge, this is the first work to systematically evaluate the flexibility and robustness of cart-pushing methods in experiments. The video supplement is available at https://sites.google.com/view/mpac-pushing/.
title Integrating Maneuverable Planning and Adaptive Control for Robot Cart-Pushing under Disturbances
topic Robotics
url https://arxiv.org/abs/2506.18410