Add to ORKGWe provide a new adaptive controller for curve tracking in the plane under unknown curvature. We prove a global asymptotic stability theorem that ensures tracking of the curve and convergence of the curvature estimate to the unknown curvature. Our curvature identification result is an improvement over the known adaptive curve tracking results, which do not ensure parameter identification, or which identify the control gain without identifying curvatures
International audienceWe analyze an important class of feedback controllers for curve tracking probl...
Building on previous work of Canudas de Wit et al. a nonlinear path following controller for the kin...
International audienceIn this paper global tracking and parameter convergence are proven for an adap...
We provide adaptive controllers for curve tracking in the plane, under unknown curvatures and contro...
Curve tracking is a challenging and central problem in robotics. In this note, we study adaptive con...
We study a class of steering control problems for free-moving particles tracking a curve in the plan...
Abstract — We study adaptive control and parameter identifi-cation for robotic curve tracking under ...
We study adaptive control and parameter identification for robotic curve tracking under unknown cont...
Autonomous vehicles, that are equipped with an artificial vision system, are considered in this pape...
We study a class of adaptive controllers for three dimensional (3D) curve tracking under control unc...
International audienceWe solve the simultaneous closed-loop identification and tracking-control prob...
We introduce invariants of control-affine systems which we call curvatures. They are defined by the ...
In this paper, a new framework for the tracking of closed curves is described. The proposed approach...
We prove the existence of a P-type (proportional-type) space-learning control, which, on the basis o...
International audienceWe propose in this paper an estimator of derivative and curvature of discrete ...
International audienceWe analyze an important class of feedback controllers for curve tracking probl...
Building on previous work of Canudas de Wit et al. a nonlinear path following controller for the kin...
International audienceIn this paper global tracking and parameter convergence are proven for an adap...
We provide adaptive controllers for curve tracking in the plane, under unknown curvatures and contro...
Curve tracking is a challenging and central problem in robotics. In this note, we study adaptive con...
We study a class of steering control problems for free-moving particles tracking a curve in the plan...
Abstract — We study adaptive control and parameter identifi-cation for robotic curve tracking under ...
We study adaptive control and parameter identification for robotic curve tracking under unknown cont...
Autonomous vehicles, that are equipped with an artificial vision system, are considered in this pape...
We study a class of adaptive controllers for three dimensional (3D) curve tracking under control unc...
International audienceWe solve the simultaneous closed-loop identification and tracking-control prob...
We introduce invariants of control-affine systems which we call curvatures. They are defined by the ...
In this paper, a new framework for the tracking of closed curves is described. The proposed approach...
We prove the existence of a P-type (proportional-type) space-learning control, which, on the basis o...
International audienceWe propose in this paper an estimator of derivative and curvature of discrete ...
International audienceWe analyze an important class of feedback controllers for curve tracking probl...
Building on previous work of Canudas de Wit et al. a nonlinear path following controller for the kin...
International audienceIn this paper global tracking and parameter convergence are proven for an adap...