English

Collaborative Object Transportation in Space via Impact Interactions

Robotics 2025-04-29 v1

Abstract

We present a planning and control approach for collaborative transportation of objects in space by a team of robots. Object and robots in microgravity environments are not subject to friction but are instead free floating. This property is key to how we approach the transportation problem: the passive objects are controlled by impact interactions with the controlled robots. In particular, given a high-level Signal Temporal Logic (STL) specification of the transportation task, we synthesize motion plans for the robots to maximize the specification satisfaction in terms of spatial STL robustness. Given that the physical impact interactions are complex and hard to model precisely, we also present an alternative formulation maximizing the permissible uncertainty in a simplified kinematic impact model. We define the full planning and control stack required to solve the object transportation problem; an offline planner, an online replanner, and a low-level model-predictive control scheme for each of the robots. We show the method in a high-fidelity simulator for a variety of scenarios and present experimental validation of 2-robot, 1-object scenarios on a freeflyer platform.

Keywords

Cite

@article{arxiv.2504.18667,
  title  = {Collaborative Object Transportation in Space via Impact Interactions},
  author = {Joris Verhagen and Jana Tumova},
  journal= {arXiv preprint arXiv:2504.18667},
  year   = {2025}
}

Comments

15 pages, 11 figures

R2 v1 2026-06-28T23:11:55.241Z