Add to ORKGSubmitted for publication in Int. J. Robust and Nonlinear ControlIn multi-agent systems, most commonly, consensus consists in all agents converging to a common equilibrium point. For nonholonomic vehicles, which move on a Cartesian plane and occupy a physical space, it is more appropriate to speak of consensus-based formation, which implies that the vehicles are required to converge to a relative position in a given formation while, distributively, agreeing on the center of such formation and on their orientation. In this paper we solve such a problem via a smooth, time-varying, output-feedback control; more precisely, without velocity measurements. In addition, and this is our main contribution, the controller is designed to satisfy pre-im...
This paper addresses the hybrid consensus-based formation keeping problem for nonholonomic mobile ro...
This paper addresses the control of a leader-follower formation where the leader robot has its own t...
In this chapter, a hybrid consensus-based formation controller is designed for mobile robots. First,...
International audienceWe address the open problem of consensusbased formation control of nonholonomi...
International audienceWe present a novel smooth time-varying controller for the formation control of...
International audienceWe address the full-consensus problem for multiagent nonholonomic systems via ...
International audienceWe present a solution to the problem of formation consensus control of second-...
International audienceWe describe a control method for multi-agent vehicles, to make them adopt a fo...
International audienceThis paper proposes a solution for the leader-follower consensus formation con...
International audienceWe solve the leaderless consensus-formation control problem for nonholonomic r...
International audienceFor a network of nonholonomic vehicles communicating according to an undirecte...
International audienceWe address the problem of consensus control of second-order nonholonomic syste...
International audienceThe control objective in the leaderless consensus-based formation control is t...
This paper investigates the distributed consensus-based robust adaptive formation control for nonhol...
International audienceThis paper presents a novel decentralized consensus-based formation controller...
This paper addresses the hybrid consensus-based formation keeping problem for nonholonomic mobile ro...
This paper addresses the control of a leader-follower formation where the leader robot has its own t...
In this chapter, a hybrid consensus-based formation controller is designed for mobile robots. First,...
International audienceWe address the open problem of consensusbased formation control of nonholonomi...
International audienceWe present a novel smooth time-varying controller for the formation control of...
International audienceWe address the full-consensus problem for multiagent nonholonomic systems via ...
International audienceWe present a solution to the problem of formation consensus control of second-...
International audienceWe describe a control method for multi-agent vehicles, to make them adopt a fo...
International audienceThis paper proposes a solution for the leader-follower consensus formation con...
International audienceWe solve the leaderless consensus-formation control problem for nonholonomic r...
International audienceFor a network of nonholonomic vehicles communicating according to an undirecte...
International audienceWe address the problem of consensus control of second-order nonholonomic syste...
International audienceThe control objective in the leaderless consensus-based formation control is t...
This paper investigates the distributed consensus-based robust adaptive formation control for nonhol...
International audienceThis paper presents a novel decentralized consensus-based formation controller...
This paper addresses the hybrid consensus-based formation keeping problem for nonholonomic mobile ro...
This paper addresses the control of a leader-follower formation where the leader robot has its own t...
In this chapter, a hybrid consensus-based formation controller is designed for mobile robots. First,...