An adaptive output feedback controller with a fast varying unknown delay in the measurements is considered. Sufficient conditions for the resulting closed-loop system to be asymptotically stable with respect to state variables within some domain of attraction are derived. It is shown that the adaptive gain tends to a constant value. The proof is based on Passification lemma and a Lyapunov-Krasovskii method. The result is applicable to systems with polytopic-type uncertainties. Advantages of the adaptive control over the static output feedback are demonstrated on a pitch angle control of a flying vehicle
International audienceStabilization of unstable systems with actuator delay of substantial length an...
In this note, a switching-type delay-adaptive predictor feedback controller is proposed to globally ...
We study the possibility to adaptively tune the feedback gain K in the well-known time-delayed feed-...
For a class of uncertain systems we analyze passification-based adaptive controller in the presence ...
International audienceAn output robust adaptive control is designed for a class of Lipschitz nonline...
Robust adaptive control of plants whose state variables are accessible in the presence of an input t...
International audienceStabilization of an unstable system with an unknown actuator delay of substant...
The control of physical systems in the presence of time-delays becomes particularly chal-lenging whe...
Abstract — Stabilization of an unstable system with an un-known actuator delay of substantial length...
International audienceThe problem of output robust adaptive stabilization for a class of Lipschitz n...
The control of physical systems in the presence of time-delays becomes particularly challenging when...
textThis work addresses the problem of stabilizing attitude dynamics with an unknown delay in feedb...
The objective of this dissertation is to explore the use of adaptive feedback control algorithms in ...
We derive adaptive time-delayed feedback controllers that stabilize fixed points and periodic orbits...
This paper deals with a robustly stable adaptive pole-placement-based controller for time-delay line...
International audienceStabilization of unstable systems with actuator delay of substantial length an...
In this note, a switching-type delay-adaptive predictor feedback controller is proposed to globally ...
We study the possibility to adaptively tune the feedback gain K in the well-known time-delayed feed-...
For a class of uncertain systems we analyze passification-based adaptive controller in the presence ...
International audienceAn output robust adaptive control is designed for a class of Lipschitz nonline...
Robust adaptive control of plants whose state variables are accessible in the presence of an input t...
International audienceStabilization of an unstable system with an unknown actuator delay of substant...
The control of physical systems in the presence of time-delays becomes particularly chal-lenging whe...
Abstract — Stabilization of an unstable system with an un-known actuator delay of substantial length...
International audienceThe problem of output robust adaptive stabilization for a class of Lipschitz n...
The control of physical systems in the presence of time-delays becomes particularly challenging when...
textThis work addresses the problem of stabilizing attitude dynamics with an unknown delay in feedb...
The objective of this dissertation is to explore the use of adaptive feedback control algorithms in ...
We derive adaptive time-delayed feedback controllers that stabilize fixed points and periodic orbits...
This paper deals with a robustly stable adaptive pole-placement-based controller for time-delay line...
International audienceStabilization of unstable systems with actuator delay of substantial length an...
In this note, a switching-type delay-adaptive predictor feedback controller is proposed to globally ...
We study the possibility to adaptively tune the feedback gain K in the well-known time-delayed feed-...