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Robust Multi-Robot Trajectory Optimization Using Alternating Direction Method of Multiplier

Robotics 2023-02-28 v4

Abstract

We propose a variant of alternating direction method of multiplier (ADMM) to solve constrained trajectory optimization problems. Our ADMM framework breaks a joint optimization into small sub-problems, leading to a low iteration cost and decentralized parameter updates. Starting from a collision-free initial trajectory, our method inherits the theoretical properties of primal interior point method (P-IPM), i.e., guaranteed collision avoidance and homotopy preservation throughout optimization, while being orders of magnitude faster. We have analyzed the convergence and evaluated our method for time-optimal multi-UAV trajectory optimizations and simultaneous goal-reaching of multiple robot arms, where we take into consider kinematics-, dynamics-limits, and homotopy-preserving collision constraints. Our method highlights an order of magnitude's speedup, while generating trajectories of comparable qualities as state-of-the-art P-IPM solver.

Keywords

Cite

@article{arxiv.2111.07016,
  title  = {Robust Multi-Robot Trajectory Optimization Using Alternating Direction Method of Multiplier},
  author = {Ruiqi Ni and Zherong Pan and Xifeng Gao},
  journal= {arXiv preprint arXiv:2111.07016},
  year   = {2023}
}
R2 v1 2026-06-24T07:37:01.248Z