We describe a framework for controlling a group of nonholonomic mobile robots equipped with range sensors. The vehicles are required to follow a prescribed trajectory while maintaining a desired formation. By using the leader-following approach, we formulate the formation control problem as a hybrid (mode switching) control system. We then develop a decision module that allows the robots to automatically switch between continuous-state control laws to achieve a desired formation shape. The stability properties of the closed-loop hybrid system are studied using Lyapunov theory. We do not use explicit communication between robots; instead we integrate optimal estimation techniques with nonlinear controllers. Simulation and experimental result...
This paper presents a new method for controlling a group of nonholonomic mobile robots to achieve pr...
This paper is concerned with the leader-follower formation control of multi-mobile robots.In the pro...
Cooperative decision and control for mobile robot teams have been of great interest in the control c...
We describe a framework for controlling a group of nonholonomic mobile robots equipped with range se...
In this chapter, a hybrid consensus-based formation controller is designed for mobile robots. First,...
We describe a framework for coordination and control of a group of nonholonomic mobile robots that a...
This paper addresses the hybrid consensus-based formation keeping problem for nonholonomic mobile ro...
This paper presents a hybrid formation controller approach for nonholonomic mobile robots. This appr...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholon...
Abstract. In this paper we consider the formation control of multiple nonholo-nomic mobile robots wi...
This paper presents control algorithms for multiple non-holonomic mobile robots moving in formation....
This paper presents a framework for controlling groups of autonomous mobile robots to achieve predet...
Abstract We describe a framework for controlling and coordinating a group of nonholonomic mobile rob...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholo...
This paper addresses the control of a leader-follower formation where the leader robot has its own t...
This paper presents a new method for controlling a group of nonholonomic mobile robots to achieve pr...
This paper is concerned with the leader-follower formation control of multi-mobile robots.In the pro...
Cooperative decision and control for mobile robot teams have been of great interest in the control c...
We describe a framework for controlling a group of nonholonomic mobile robots equipped with range se...
In this chapter, a hybrid consensus-based formation controller is designed for mobile robots. First,...
We describe a framework for coordination and control of a group of nonholonomic mobile robots that a...
This paper addresses the hybrid consensus-based formation keeping problem for nonholonomic mobile ro...
This paper presents a hybrid formation controller approach for nonholonomic mobile robots. This appr...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholon...
Abstract. In this paper we consider the formation control of multiple nonholo-nomic mobile robots wi...
This paper presents control algorithms for multiple non-holonomic mobile robots moving in formation....
This paper presents a framework for controlling groups of autonomous mobile robots to achieve predet...
Abstract We describe a framework for controlling and coordinating a group of nonholonomic mobile rob...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholo...
This paper addresses the control of a leader-follower formation where the leader robot has its own t...
This paper presents a new method for controlling a group of nonholonomic mobile robots to achieve pr...
This paper is concerned with the leader-follower formation control of multi-mobile robots.In the pro...
Cooperative decision and control for mobile robot teams have been of great interest in the control c...