International audienceWe present a novel smooth time-varying controller for the formation control of nonholonomic robots. The controller is of proportional-plus-derivative type, but it does not require velocity measurements; the latter are replaced by approximate differentiation. To overcome the difficulty imposed by the nonholonomy, the controller relies on a δ-persistentlyexciting term which, roughly speaking, excites all the systems' modes while the position errors are away from zero. Assuming that the interconnection static graph is undirected and connected, it is showed that the nonholonomic robots converge to a given formation pattern around a rendezvous point and their orientations tend to a common angle. To the best of our knowledge...
This paper investigates the distributed consensus-based robust adaptive formation control for nonhol...
International audienceWe address the full-consensus problem for multiagent nonholonomic systems via ...
International audienceThis paper presents a smooth time-varying δ-persistently exciting controller f...
International audienceWe present a novel smooth time-varying controller for the formation control of...
International audienceWe address the open problem of consensusbased formation control of nonholonomi...
International audienceWe solve the leaderless consensus-formation control problem for nonholonomic r...
Submitted for publication in Int. J. Robust and Nonlinear ControlIn multi-agent systems, most common...
International audienceThe control objective in the leaderless consensus-based formation control is t...
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...
International audienceWe address the problem of consensus control of second-order nonholonomic syste...
International audienceWe present a simple smooth time-varying formation controller for autonomous ve...
International audienceWe address the problem of making nonholonomic vehicles, with second-order dyna...
In this chapter, a hybrid consensus-based formation controller is designed for mobile robots. First,...
This paper investigates the distributed consensus-based robust adaptive formation control for nonhol...
International audienceWe address the full-consensus problem for multiagent nonholonomic systems via ...
International audienceThis paper presents a smooth time-varying δ-persistently exciting controller f...
International audienceWe present a novel smooth time-varying controller for the formation control of...
International audienceWe address the open problem of consensusbased formation control of nonholonomi...
International audienceWe solve the leaderless consensus-formation control problem for nonholonomic r...
Submitted for publication in Int. J. Robust and Nonlinear ControlIn multi-agent systems, most common...
International audienceThe control objective in the leaderless consensus-based formation control is t...
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...
International audienceWe address the problem of consensus control of second-order nonholonomic syste...
International audienceWe present a simple smooth time-varying formation controller for autonomous ve...
International audienceWe address the problem of making nonholonomic vehicles, with second-order dyna...
In this chapter, a hybrid consensus-based formation controller is designed for mobile robots. First,...
This paper investigates the distributed consensus-based robust adaptive formation control for nonhol...
International audienceWe address the full-consensus problem for multiagent nonholonomic systems via ...
International audienceThis paper presents a smooth time-varying δ-persistently exciting controller f...