English

Provably Stable Multi-Agent Routing with Bounded-Delay Adversaries in the Decision Loop

Multiagent Systems 2025-04-02 v1 Robotics

Abstract

In this work, we are interested in studying multi-agent routing settings, where adversarial agents are part of the assignment and decision loop, degrading the performance of the fleet by incurring bounded delays while servicing pickup-and-delivery requests. Specifically, we are interested in characterizing conditions on the fleet size and the proportion of adversarial agents for which a routing policy remains stable, where stability for a routing policy is achieved if the number of outstanding requests is uniformly bounded over time. To obtain this characterization, we first establish a threshold on the proportion of adversarial agents above which previously stable routing policies for fully cooperative fleets are provably unstable. We then derive a sufficient condition on the fleet size to recover stability given a maximum proportion of adversarial agents. We empirically validate our theoretical results on a case study on autonomous taxi routing, where we consider transportation requests from real San Francisco taxicab data.

Keywords

Cite

@article{arxiv.2504.00863,
  title  = {Provably Stable Multi-Agent Routing with Bounded-Delay Adversaries in the Decision Loop},
  author = {Roee M. Francos and Daniel Garces and Stephanie Gil},
  journal= {arXiv preprint arXiv:2504.00863},
  year   = {2025}
}

Comments

14 pages, 4 figures

R2 v1 2026-06-28T22:42:31.440Z