17th International Symposium on
Mathematical Theory of Networks and Systems
Kyoto International Conference Hall, Kyoto, Japan, July 24-28, 2006

MTNS 2006 Paper Abstract

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Paper FrA08.4

Sarlette, Alain (Univ. of Liege, Belgium), Sepulchre, Rodolphe (Univ. of Liege, Belgium), Leonard, Naomi (Princeton Univ.)

Discrete-Time Synchronization on the N-Torus

Scheduled for presentation during the Mini-Symposium "Cooperative Control" (FrA08), Friday, July 28, 2006, 11:40−12:05, Room I

17th International Symposium on Mathematical Theory of Networks and Systems, July 24-28, 2006, Kyoto, Japan

This information is tentative and subject to change. Compiled on April 25, 2024

Keywords Coordinated control, Group formation

Abstract

In this paper, we study the behavior of a discrete-time network of N agents, each evolving on the circle. The global convergence analysis on the N-torus is a distinctive feature of the present work with respect to previous synchronization results that have focused on convergence in the Euclidean space (Rn)N. We address the question from a control perspective, but make several connections with existing models, including the Hopfield network, the Vicsek model and the (continuous-time) Kuramoto model.

We propose two different distributed algorithms. The first one achieves convergence to equilibria in shape space that are the local extrema of a potential UL built on the graph topology; it can be implemented with sensor-based interaction only, since each agent just relies on the relative position of its neighbors. The second one achieves synchronization under varying and/or directed communication topology using local estimates of a consensus variable that are communicated between interacting agents. Both algorithms are based on the notion of centroid and can be interpreted as descent algorithms. The proposed approach can be extended to other embedded compact manifolds.