English

Cooperative Robot Localization Using Event-triggered Estimation

Robotics 2018-02-22 v1 Systems and Control Signal Processing Applications

Abstract

This paper describes a novel communication-spare cooperative localization algorithm for a team of mobile unmanned robotic vehicles. Exploiting an event-based estimation paradigm, robots only send measurements to neighbors when the expected innovation for state estimation is high. Since agents know the event-triggering condition for measurements to be sent, the lack of a measurement is thus also informative and fused into state estimates. The robots use a Covariance Intersection (CI) mechanism to occasionally synchronize their local estimates of the full network state. In addition, heuristic balancing dynamics on the robots' CI-triggering thresholds ensure that, in large diameter networks, the local error covariances remains below desired bounds across the network. Simulations on both linear and nonlinear dynamics/measurement models show that the event-triggering approach achieves nearly optimal state estimation performance in a wide range of operating conditions, even when using only a fraction of the communication cost required by conventional full data sharing. The robustness of the proposed approach to lossy communications, as well as the relationship between network topology and CI-based synchronization requirements, are also examined.

Keywords

Cite

@article{arxiv.1802.07346,
  title  = {Cooperative Robot Localization Using Event-triggered Estimation},
  author = {Michael Ouimet and David Iglesias and Nisar Ahmed and Sonia Martinez},
  journal= {arXiv preprint arXiv:1802.07346},
  year   = {2018}
}

Comments

Revised submission in review with AIAA Journal of Aerospace Information Systems (JAIS), submitted February 17, 2018

R2 v1 2026-06-23T00:28:15.313Z