English

Optimal Time-Invariant Distributed Formation Tracking for Second-Order Multi-Agent Systems

Systems and Control 2025-01-08 v3 Systems and Control

Abstract

This paper addresses the optimal time-invariant formation tracking problem with the aim of providing a distributed solution for multi-agent systems with second-order integrator dynamics. In the literature, most of the results related to multi-agent formation tracking do not consider energy issues while investigating distributed feedback control laws. In order to account for this crucial design aspect, we contribute by formalizing and proposing a solution to an optimization problem that encapsulates trajectory tracking, distance-based formation control and input energy minimization, through a specific and key choice of potential functions in the optimization cost. To this end, we show how to compute the inverse dynamics in a centralized fashion by means of the Projector-Operator-based Newton's method for Trajectory Optimization (PRONTO) and, more importantly, we exploit such an offline solution as a general reference to devise a stabilizing online distributed control law. Finally, numerical examples involving a cubic formation following a chicane-like path in the 3D space are provided to validate the proposed control strategies.

Keywords

Cite

@article{arxiv.2307.12235,
  title  = {Optimal Time-Invariant Distributed Formation Tracking for Second-Order Multi-Agent Systems},
  author = {Marco Fabris and Giulio Fattore and Angelo Cenedese},
  journal= {arXiv preprint arXiv:2307.12235},
  year   = {2025}
}

Comments

35 pages, 3 figures, accepted on March 27th, 2024 by the European Journal of Control (first submission: June 23rd, 2023)

R2 v1 2026-06-28T11:37:52.964Z