The problem of leader-follower formation of a platoon of differential-drive wheeled mobile robots without using attitude measurements is addressed in this paper. Contrary to the position-distance approaches existing in the literature, the formation and collision avoidance is achieved by introducing a state-dependent delay in the desired trajectory. The delay is obtained as the output of a dynamical system and its magnitude will decrease/increase depending on the distance between the robots. To guarantee trajectory tracking and to overcome the lack of orientation measurements, an output feedback control and attitude observer are proposed based on the kinematic model of the robots. The attitude observer is designed directly on the special ort...
Abstract — In this paper we present the leader-follower formation control of nonholonomic mobile rob...
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
In this paper, a stable leader-following formation control for multiple non-holonomic mobile robot s...
In this paper, the obstacle avoidance problem-based leader–following formation tracking of nonholono...
In this paper, we study the problem of modeling and controlling leader-follower formation of mobile ...
In this paper we present a leader-follower control law that enables a mobile robot to track a desire...
In this paper a new leader-follower formation of nonholonomic mobile robots is studied. The follower...
In this paper, the formation control and obstacle avoidance problems are dealt with a unified contro...
This paper presents the extension of leader-follower behaviours, for the case of a combined set of k...
This paper deals with leader-follower formations of nonholonomic mobile robots. Formalizing the prob...
This paper presents a constructive method to design output-feedback cooperative controllers that for...
This paper presents a constructive method to design output-feedback cooperative controllers that for...
Formations or groups of robots become essential in cases where a single robot is insufficient to sat...
[Departement_IRSTEA]Ecotechnologies [TR1_IRSTEA]INSPIREInternational audienceOff-road mobile robotic...
This thesis is concerned with controlling a platoon of wheeled mobile robots (WMR), where the robots...
Abstract — In this paper we present the leader-follower formation control of nonholonomic mobile rob...
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
In this paper, a stable leader-following formation control for multiple non-holonomic mobile robot s...
In this paper, the obstacle avoidance problem-based leader–following formation tracking of nonholono...
In this paper, we study the problem of modeling and controlling leader-follower formation of mobile ...
In this paper we present a leader-follower control law that enables a mobile robot to track a desire...
In this paper a new leader-follower formation of nonholonomic mobile robots is studied. The follower...
In this paper, the formation control and obstacle avoidance problems are dealt with a unified contro...
This paper presents the extension of leader-follower behaviours, for the case of a combined set of k...
This paper deals with leader-follower formations of nonholonomic mobile robots. Formalizing the prob...
This paper presents a constructive method to design output-feedback cooperative controllers that for...
This paper presents a constructive method to design output-feedback cooperative controllers that for...
Formations or groups of robots become essential in cases where a single robot is insufficient to sat...
[Departement_IRSTEA]Ecotechnologies [TR1_IRSTEA]INSPIREInternational audienceOff-road mobile robotic...
This thesis is concerned with controlling a platoon of wheeled mobile robots (WMR), where the robots...
Abstract — In this paper we present the leader-follower formation control of nonholonomic mobile rob...
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
In this paper, a stable leader-following formation control for multiple non-holonomic mobile robot s...