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Autori principali: Wang, Yifei, Zhang, Hao, Huang, Jidong, Fang, Shuohang, Chen, Haoyao
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2604.08292
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author Wang, Yifei
Zhang, Hao
Huang, Jidong
Fang, Shuohang
Chen, Haoyao
author_facet Wang, Yifei
Zhang, Hao
Huang, Jidong
Fang, Shuohang
Chen, Haoyao
contents The autonomous operation of tracked mobile manipulators in rescue missions requires not only ensuring the reachability and safety of robot motion but also maintaining stable end-effector manipulation under diverse task demands. However, existing studies have overlooked many end-effector motion properties at both the planning and control levels. This paper presents a motion generation framework for tracked mobile manipulators to achieve stable end-effector operation in complex rescue scenarios. The framework formulates a coordinated path optimization model that couples end-effector and mobile base states and designs compact cost/constraint representations to mitigate nonlinearities and reduce computational complexity. Furthermore, an isolated control scheme with feedforward compensation and feedback regulation is developed to enable coordinated path tracking for the robot. Extensive simulated and real-world experiments on rescue scenarios demonstrate that the proposed framework consistently outperforms SOTA methods across key metrics, including task success rate and end-effector motion stability, validating its effectiveness and robustness in complex mobile manipulation tasks.
format Preprint
id arxiv_https___arxiv_org_abs_2604_08292
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle EMMa: End-Effector Stability-Oriented Mobile Manipulation for Tracked Rescue Robots
Wang, Yifei
Zhang, Hao
Huang, Jidong
Fang, Shuohang
Chen, Haoyao
Robotics
The autonomous operation of tracked mobile manipulators in rescue missions requires not only ensuring the reachability and safety of robot motion but also maintaining stable end-effector manipulation under diverse task demands. However, existing studies have overlooked many end-effector motion properties at both the planning and control levels. This paper presents a motion generation framework for tracked mobile manipulators to achieve stable end-effector operation in complex rescue scenarios. The framework formulates a coordinated path optimization model that couples end-effector and mobile base states and designs compact cost/constraint representations to mitigate nonlinearities and reduce computational complexity. Furthermore, an isolated control scheme with feedforward compensation and feedback regulation is developed to enable coordinated path tracking for the robot. Extensive simulated and real-world experiments on rescue scenarios demonstrate that the proposed framework consistently outperforms SOTA methods across key metrics, including task success rate and end-effector motion stability, validating its effectiveness and robustness in complex mobile manipulation tasks.
title EMMa: End-Effector Stability-Oriented Mobile Manipulation for Tracked Rescue Robots
topic Robotics
url https://arxiv.org/abs/2604.08292