Trajectory Optimization for Differential Drive Mobile Manipulators via Topological Paths Search and Arc Length-Yaw Parameterization
Long Xu
Choilam Wong
Mengke Zhang
Junxiao Lin
Fei Gao
Main:14 Pages
3 Figures
Bibliography:1 Pages
1 Tables
Appendix:1 Pages
Abstract
We present an efficient hierarchical motion planning pipeline for differential drive mobile manipulators. Our approach first searches for multiple collisionfree and topologically distinct paths for the mobile base to extract the space in which optimal solutions may exist. Further sampling and optimization are then conducted in parallel to explore feasible whole-body trajectories. For trajectory optimization, we employ polynomial trajectories and arc length-yaw parameterization, enabling efficient handling of the nonholonomic dynamics while ensuring optimality.
View on arXiv@article{xu2025_2507.02761,
title={ Trajectory Optimization for Differential Drive Mobile Manipulators via Topological Paths Search and Arc Length-Yaw Parameterization },
author={ Long Xu and Choilam Wong and Mengke Zhang and Junxiao Lin and Fei Gao },
journal={arXiv preprint arXiv:2507.02761},
year={ 2025 }
}Comments on this paper