Distributed consensus on enclosing shapes and minimum time rendezvous

Author

Notarstefano, Giuseppe ; Bullo, Francesco

Author_Institution

Dept. of Inf. Eng., Universita di Padova

fYear

2006

fDate

13-15 Dec. 2006

Firstpage

4295

Lastpage

4300

Abstract

In this paper we introduce the notion of optimization under control and communication constraint in a robotic network. Starting from a general setup, we focus our attention on the problem of achieving rendezvous in minimum time for a network of first order agents with bounded inputs and limited range communication. We propose two dynamic control and communication laws. These laws are based on consensus algorithms for distributed computation of the minimal enclosing ball and orthotope of a set of points. We prove that these control laws converge to the optimal solution of the centralized problem (i.e., when no communication constrains are enforced) as the bound on the control input goes to zero. Moreover, we give a bound for the time complexity of one of the two laws

Keywords

computational complexity; distributed control; multi-robot systems; optimal control; optimisation; communication laws; consensus algorithms; distributed computation; distributed consensus; dynamic control; enclosing shapes; first order agents; minimal enclosing ball; minimum time rendezvous; range communication; robotic network; time complexity; Centralized control; Communication system control; Constraint optimization; Distributed computing; Mobile communication; Motion control; Network topology; Optimal control; Robot kinematics; Shape control;

fLanguage

English

Publisher

ieee

Conference_Titel

Decision and Control, 2006 45th IEEE Conference on

Conference_Location

San Diego, CA

Print_ISBN

1-4244-0171-2

Type

conf

DOI

10.1109/CDC.2006.377264

Filename

4178059