Add to ORKGInternational audienceThe recent new backstepping control design strategy based on the introduction of artificial delays and/or dynamic extensions is adapted to a family of systems. That way, globally asymptotically stabilizing control laws for fundamental systems which cannot be handled by other techniques are determined
We construct bounded globally asymptotically stabilizing output feedbacks for a family of nonlinear ...
We provide new asymptotically stabilizing backstepping controls for time-varying systems in a partia...
We provide a bounded backstepping result that ensures global asymptotic convergence for a broad clas...
International audienceThe recent new backstepping control design strategy based on the introduction ...
International audienceThe recent new backstepping control design strategy based on the introduction ...
International audienceThe recent new backstepping control design strategy based on the introduction ...
International audienceThe recent new backstepping control design strategy based on the introduction ...
International audienceWe provide a new backstepping result for time-varying systems with input delay...
International audienceWe provide a new backstepping result for time-varying systems with input delay...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptot-ic...
We provide a new backstepping result for time-varying systems with input delays. The novelty of our ...
International audienceWe provide a new backstepping result for time-varying systems with input delay...
We revisit the backstepping approach. We show how bounded globally asymptotically stabilizing output...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceThe backstepping approach is adapted to the problem of globally uniformly asym...
We construct bounded globally asymptotically stabilizing output feedbacks for a family of nonlinear ...
We provide new asymptotically stabilizing backstepping controls for time-varying systems in a partia...
We provide a bounded backstepping result that ensures global asymptotic convergence for a broad clas...
International audienceThe recent new backstepping control design strategy based on the introduction ...
International audienceThe recent new backstepping control design strategy based on the introduction ...
International audienceThe recent new backstepping control design strategy based on the introduction ...
International audienceThe recent new backstepping control design strategy based on the introduction ...
International audienceWe provide a new backstepping result for time-varying systems with input delay...
International audienceWe provide a new backstepping result for time-varying systems with input delay...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptot-ic...
We provide a new backstepping result for time-varying systems with input delays. The novelty of our ...
International audienceWe provide a new backstepping result for time-varying systems with input delay...
We revisit the backstepping approach. We show how bounded globally asymptotically stabilizing output...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceThe backstepping approach is adapted to the problem of globally uniformly asym...
We construct bounded globally asymptotically stabilizing output feedbacks for a family of nonlinear ...
We provide new asymptotically stabilizing backstepping controls for time-varying systems in a partia...
We provide a bounded backstepping result that ensures global asymptotic convergence for a broad clas...