English

A Policy Iteration Approach for Flock Motion Control

Systems and Control 2023-03-20 v1 Machine Learning Multiagent Systems Robotics Systems and Control

Abstract

The flocking motion control is concerned with managing the possible conflicts between local and team objectives of multi-agent systems. The overall control process guides the agents while monitoring the flock-cohesiveness and localization. The underlying mechanisms may degrade due to overlooking the unmodeled uncertainties associated with the flock dynamics and formation. On another side, the efficiencies of the various control designs rely on how quickly they can adapt to different dynamic situations in real-time. An online model-free policy iteration mechanism is developed here to guide a flock of agents to follow an independent command generator over a time-varying graph topology. The strength of connectivity between any two agents or the graph edge weight is decided using a position adjacency dependent function. An online recursive least squares approach is adopted to tune the guidance strategies without knowing the dynamics of the agents or those of the command generator. It is compared with another reinforcement learning approach from the literature which is based on a value iteration technique. The simulation results of the policy iteration mechanism revealed fast learning and convergence behaviors with less computational effort.

Keywords

Cite

@article{arxiv.2303.10035,
  title  = {A Policy Iteration Approach for Flock Motion Control},
  author = {Shuzheng Qu and Mohammed Abouheaf and Wail Gueaieb and Davide Spinello},
  journal= {arXiv preprint arXiv:2303.10035},
  year   = {2023}
}

Comments

7 pages, 3 figures

R2 v1 2026-06-28T09:21:43.063Z