This paper addresses the deployment problem for a swarm of autonomous mobile robots initially randomly distributed in 3 dimensional space. A fully decentralized geometric self-configuration approach is proposed to deploy individual robots at a given spatial density. Specifically, each robot interacts with three neighboring robots in a selective and dynamic fashion without using any explicit communication so that four robots eventually form a regular tetrahedron.Using such local interactions, the proposed algorithms enable a swarm of robots to span a network of regular tetrahedrons in a designated space. The convergence of the algorithms is theoretically proved using Lyapunov theory. Through extensive simulations, we validate the effectivene...
Cooperative control of multiple mobile robots is an attractive and challenging problem which has dra...
(c) 2009 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
The article analyzes the problem of self-organization of randomly placed wheeled robots around a sta...
We discuss the fundamental problems and practical issues underlying the deployment of a swarm of aut...
This paper addresses the problem of the coordinated deployment of a swarm of mobile robots in an are...
This paper addresses the adaptively latticed deployment problem for a swarm of autonomous mobile rob...
In this study, we focus on a self-deployment problem for a swarm of autonomous mobile robots that ca...
This paper presents a motion planning framework for a large number of autonomous robots that enables...
We address the problem of dispersing a large number of autonomous mobile robots, for building wirele...
We address the problem of dispersing a large number of autonomous mobile robots toward building wire...
Decentralised control of mobile robotic sensor networks is a fundamental problem in robotics that ha...
We address the problem of deploying a swarm of autonomous mobile robots toward building an ad hoc ne...
Cooperative control of multiple mobile robots is an attractive and challenging problem which has dra...
Cooperative control of multiple mobile robots is an attractive and challenging problem which has dra...
Cooperative control of multiple mobile robots is an attractive and challenging problem which has dra...
Cooperative control of multiple mobile robots is an attractive and challenging problem which has dra...
(c) 2009 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
The article analyzes the problem of self-organization of randomly placed wheeled robots around a sta...
We discuss the fundamental problems and practical issues underlying the deployment of a swarm of aut...
This paper addresses the problem of the coordinated deployment of a swarm of mobile robots in an are...
This paper addresses the adaptively latticed deployment problem for a swarm of autonomous mobile rob...
In this study, we focus on a self-deployment problem for a swarm of autonomous mobile robots that ca...
This paper presents a motion planning framework for a large number of autonomous robots that enables...
We address the problem of dispersing a large number of autonomous mobile robots, for building wirele...
We address the problem of dispersing a large number of autonomous mobile robots toward building wire...
Decentralised control of mobile robotic sensor networks is a fundamental problem in robotics that ha...
We address the problem of deploying a swarm of autonomous mobile robots toward building an ad hoc ne...
Cooperative control of multiple mobile robots is an attractive and challenging problem which has dra...
Cooperative control of multiple mobile robots is an attractive and challenging problem which has dra...
Cooperative control of multiple mobile robots is an attractive and challenging problem which has dra...
Cooperative control of multiple mobile robots is an attractive and challenging problem which has dra...
(c) 2009 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
The article analyzes the problem of self-organization of randomly placed wheeled robots around a sta...