We revisit the backstepping approach. We show how bounded globally asymptotically stabilizing output feedbacks can be constructed for a family of nonlinear systems. The approach relies on the introduction of a dynamic extension and a converging-input-converging-state assumption. The technique presents several advantages. It provides control laws whose expressions are simple. It makes it possible to stabilize systems in the presence of certain types of uncertain terms which prevent the use of the classical backstepping technique. It applies in notable cases where only part of the state variable is measured
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceThe recent new backstepping control design strategy based on the introduction ...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptot-ic...
We construct bounded globally asymptotically stabilizing output feedbacks for a family of nonlinear ...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptot-ic...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptot-ic...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptot-ic...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptotica...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptotica...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptotica...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptotica...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceThe recent new backstepping control design strategy based on the introduction ...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptot-ic...
We construct bounded globally asymptotically stabilizing output feedbacks for a family of nonlinear ...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptot-ic...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptot-ic...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptot-ic...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptotica...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptotica...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptotica...
International audienceWe revisit the backstepping approach. We show how bounded globally asymptotica...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceWe construct bounded globally asymptotically stabilizing output feedbacks for ...
International audienceThe recent new backstepping control design strategy based on the introduction ...
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