A control method for a team of multiple mobile robots performing leader-follower formation by implementing computing, communication, and control technology is considered. The strategy expands the role of global coordinator system and controllers of multiple robots system. The global coordinator system creates no-collision trajectories of the virtual leader which is the virtual leader for all vehicles, sub-virtual leaders which are the virtual leader for pertinent followers, and virtual followers. The global coordinator system also implements role assignment algorithm to allocate the role of mobile robots in the formation. The controllers of the individual mobile robots have a task to track the assigned trajectories and also to avoid collisi...
This paper addresses motion control of a cooperative intelligent transport system (C-ITS) of nonholo...
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...
A constructive method is presented to design cooperative controllers that force a group of N mobile ...
This thesis develops a hybrid decentralized formation control framework to coordinate multiple mobil...
The paper deals with leader–follower formations of nonholonomic mobile robots, introducing a formati...
In this paper, we seek to expand framework developed to control a single nonholonomic mobile robot t...
In this paper, adaptive formation control is addressed for a network of autonomous mobile robots in ...
This paper presents a framework for controlling groups of autonomous mobile robots to achieve predet...
The paper presents a study of a mobile multi-robot formation (MRF) control problem. The robots are n...
This paper is concerned with the leader-follower formation control of multi-mobile robots.In the pro...
In this paper, the formation control and obstacle avoidance problems are dealt with a unified contro...
Aiming at the formation and maintenance of the multiple formations of nonholonomic constrained multi...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholo...
This research deals with formation control of swarm robot based on changing of robot’s relative po...
This paper addresses motion control of a cooperative intelligent transport system (C-ITS) of nonholo...
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...
A constructive method is presented to design cooperative controllers that force a group of N mobile ...
This thesis develops a hybrid decentralized formation control framework to coordinate multiple mobil...
The paper deals with leader–follower formations of nonholonomic mobile robots, introducing a formati...
In this paper, we seek to expand framework developed to control a single nonholonomic mobile robot t...
In this paper, adaptive formation control is addressed for a network of autonomous mobile robots in ...
This paper presents a framework for controlling groups of autonomous mobile robots to achieve predet...
The paper presents a study of a mobile multi-robot formation (MRF) control problem. The robots are n...
This paper is concerned with the leader-follower formation control of multi-mobile robots.In the pro...
In this paper, the formation control and obstacle avoidance problems are dealt with a unified contro...
Aiming at the formation and maintenance of the multiple formations of nonholonomic constrained multi...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholo...
This research deals with formation control of swarm robot based on changing of robot’s relative po...
This paper addresses motion control of a cooperative intelligent transport system (C-ITS) of nonholo...
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...