Pairwise Optimal Discrete Coverage Control for Gossiping Robots
Abstract
We propose distributed algorithms to automatically deploy a group of robotic agents and provide coverage of a discretized environment represented by a graph. The classic Lloyd approach to coverage optimization involves separate centering and partitioning steps and converges to the set of centroidal Voronoi partitions. In this work we present a novel graph coverage algorithm which achieves better performance without this separation while requiring only pairwise ``gossip'' communication between agents. Our new algorithm provably converges to an element of the set of pairwise-optimal partitions, a subset of the set of centroidal Voronoi partitions. We illustrate that this new equilibrium set represents a significant performance improvement through numerical comparisons to existing Lloyd-type methods. Finally, we discuss ways to efficiently do the necessary computations.
Cite
@article{arxiv.1008.4941,
title = {Pairwise Optimal Discrete Coverage Control for Gossiping Robots},
author = {Joseph W. Durham and Ruggero Carli and Francesco Bullo},
journal= {arXiv preprint arXiv:1008.4941},
year = {2010}
}
Comments
Expanded version of paper appearing in CDC 2010. 8 pages, 3 figures