International audienceWe solve the formation-tracking control problem for mobile robots via linear control. As in the classical tracking control problem for two nonholonomic systems, the swarm is driven by a fictitious robot which moves about freely. Only one "leader" robot communicates with the reference vehicle and in turn, acts as a leader to a second robot hence forming a fixed spanning tree. We show that a simple condition on the reference angular velocity (persistency of excitation) suffices to achieve consensus tracking
This paper addresses the hybrid consensus-based formation keeping problem for nonholonomic mobile ro...
This paper is concerned with the leader-follower formation control of multi-mobile robots. In the pr...
The multiple applications related to networked multi-agent systems such as satellite formation flyin...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
International audienceWe address the problem of tracking control of multiple mobile robots advancing...
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
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 pro...
International audienceWe solve the leader-follower tracking-agreement control problem for nonholo-no...
In this paper, we seek to expand framework developed to control a single nonholonomic mobile robot t...
International audienceWe propose a δ-persistently exciting controller [17] for leader-follower agree...
This thesis is concerned with controlling a platoon of wheeled mobile robots (WMR), where the robots...
The study investigates the leader-follower formation control problem, for which the objective is to ...
This paper addresses the hybrid consensus-based formation keeping problem for nonholonomic mobile ro...
This paper is concerned with the leader-follower formation control of multi-mobile robots. In the pr...
The multiple applications related to networked multi-agent systems such as satellite formation flyin...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
International audienceWe address the problem of tracking control of multiple mobile robots advancing...
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
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 pro...
International audienceWe solve the leader-follower tracking-agreement control problem for nonholo-no...
In this paper, we seek to expand framework developed to control a single nonholonomic mobile robot t...
International audienceWe propose a δ-persistently exciting controller [17] for leader-follower agree...
This thesis is concerned with controlling a platoon of wheeled mobile robots (WMR), where the robots...
The study investigates the leader-follower formation control problem, for which the objective is to ...
This paper addresses the hybrid consensus-based formation keeping problem for nonholonomic mobile ro...
This paper is concerned with the leader-follower formation control of multi-mobile robots. In the pr...
The multiple applications related to networked multi-agent systems such as satellite formation flyin...