English

Dynamic multi-agent assignment via discrete optimal transport

Multiagent Systems 2019-10-25 v1 Systems and Control Systems and Control Optimization and Control Computation

Abstract

We propose an optimal solution to a deterministic dynamic assignment problem by leveraging connections to the theory of discrete optimal transport to convert the combinatorial assignment problem into a tractable linear program. We seek to allow a multi-vehicle swarm to accomplish a dynamically changing task, for example tracking a multi-target swarm. Our approach simultaneously determines the optimal assignment and the control of the individual agents. As a result, the assignment policy accounts for the dynamics and capabilities of a heterogeneous set of agents and targets. In contrast to a majority of existing assignment schemes, this approach improves upon distance-based metrics for assignments by considering cost metrics that account for the underlying dynamics manifold. We provide a theoretical justification for the reformulation of this problem, and show that the minimizer of the dynamic assignment problem is equivalent to the minimizer of the associated Monge problem arising in optimal transport. We prove that by accounting for dynamics, we only require computing an assignment once over the operating lifetime --- significantly decreasing computational expense. Furthermore, we show that the cost benefits achieved by our approach increase as the swarm size increases, achieving almost 50\% cost reduction compared with distance-based metrics. We demonstrate our approach through simulation on several linear and linearized problems.

Keywords

Cite

@article{arxiv.1910.10748,
  title  = {Dynamic multi-agent assignment via discrete optimal transport},
  author = {Koray G. Kachar and Alex A. Gorodetsky},
  journal= {arXiv preprint arXiv:1910.10748},
  year   = {2019}
}

Comments

10 pages, 8 figures

R2 v1 2026-06-23T11:53:00.605Z