Aiming at the formation and maintenance of the multiple formations of nonholonomic constrained multi-robots, a leader-follower formation control method under the grouping consistency is proposed on the trajectory tracking of a nonholonomic constrained mobile robots with the low convergence time. The distributed control structure in the leader-follower formation is adopted. The multi-robot cooperative formation is realized by using the consistency algorithm of graph theory. According to the graph theory, the communication topology matrixes are designed by the consistency algorithm. The mathematical model of nonholonomic constrained robot is established with the wheeled structure as the mobile structure under the nonholonomic constraints. The...
In this paper, adaptive formation control is addressed for a network of autonomous mobile robots in ...
This paper is concerned with the leader-follower formation control of multi-mobile robots. In the pr...
This paper presents control algorithms for multiple non-holonomic mobile robots moving in formation....
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
This paper presents a new method for controlling a group of nonholonomic mobile robots to achieve pr...
Abstract — This paper addresses the control of a leader-follower formation where the leader robot ha...
The paper deals with leader–follower formations of nonholonomic mobile robots, introducing a formati...
A control method for a team of multiple mobile robots performing leader-follower formation by implem...
This paper is concerned with the leader-follower formation control of multi-mobile robots.In the pro...
This paper presents a framework for controlling groups of autonomous mobile robots to achieve predet...
The paper focuses on leader-follower formations of nonholonomic mobile robots. A formation control a...
The paper presents a study of a mobile multi-robot formation (MRF) control problem. The robots are n...
The paper deals with leader–follower formations of nonholonomic mobile robots, introducing a formati...
Abstract -In this paper, we investigate the leader-following based formation control of nonholonomic...
International audienceWe address the open problem of consensusbased formation control of nonholonomi...
In this paper, adaptive formation control is addressed for a network of autonomous mobile robots in ...
This paper is concerned with the leader-follower formation control of multi-mobile robots. In the pr...
This paper presents control algorithms for multiple non-holonomic mobile robots moving in formation....
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
This paper presents a new method for controlling a group of nonholonomic mobile robots to achieve pr...
Abstract — This paper addresses the control of a leader-follower formation where the leader robot ha...
The paper deals with leader–follower formations of nonholonomic mobile robots, introducing a formati...
A control method for a team of multiple mobile robots performing leader-follower formation by implem...
This paper is concerned with the leader-follower formation control of multi-mobile robots.In the pro...
This paper presents a framework for controlling groups of autonomous mobile robots to achieve predet...
The paper focuses on leader-follower formations of nonholonomic mobile robots. A formation control a...
The paper presents a study of a mobile multi-robot formation (MRF) control problem. The robots are n...
The paper deals with leader–follower formations of nonholonomic mobile robots, introducing a formati...
Abstract -In this paper, we investigate the leader-following based formation control of nonholonomic...
International audienceWe address the open problem of consensusbased formation control of nonholonomi...
In this paper, adaptive formation control is addressed for a network of autonomous mobile robots in ...
This paper is concerned with the leader-follower formation control of multi-mobile robots. In the pr...
This paper presents control algorithms for multiple non-holonomic mobile robots moving in formation....