The receding-horizon (RH) methodology is extended to the design of a robust controller of H∞ type for nonlinear systems. Using the nonlinear analogue of the Fake H∞ algebraic Riccati equation, we derive an inverse optimality result for the RH schemes for which increasing the horizon causes a decrease of the optimal cost function. This inverse optimality result shows that the input-output map of the closed-loop system obtained with the RH control law has a bounded L2-gain. Robustness properties of the nonlinear H∞ control law in face of dynamic input uncertainty are considered
The study of robust nonlinear control has attracted increasing interest over the last few years. Pro...
International audienceThe Receding Horizon Control (RHC) strategy consists in replacing an infinite-...
This paper characterises the geometric structure of receding horizon control (RHC) of linear, discre...
The receding-horizon (RH) methodology is extended to the design of a robust controller of H∞ type fo...
The receding–horizon (RH) methodology is extended to the design of a robust controller of H8 type fo...
Using the nonlinear analog of the Fake Riccati equation developed for linear systems, we derive an i...
Using the nonlinear analog of the Fake Riccati equation developed for linear systems, we derive an i...
As an on-line-optimization-based control technique, receding horizon control (RHC) has been a promin...
In the first part of this thesis stability robustness for quasi-infinite Receding Horizon Control (R...
Receding horizon optimal control is a special case of model predictive control in which optimal cont...
We propose the receding horizon H∞ control (RHHC) for input-delayed systems. A new cost function for...
In this paper, a new robust and optimization based nonlinear controller with respect to a certain ki...
Almost all proposed approaches to nonlinear receding horizon control with guaranteed stability are b...
A receding horizon H∞ predictive control method is derived by solving a min-max problem in nonrecurs...
The Receding Horizon Control (RHC) strategy consists in replacing an infinite-horizon stabilization ...
The study of robust nonlinear control has attracted increasing interest over the last few years. Pro...
International audienceThe Receding Horizon Control (RHC) strategy consists in replacing an infinite-...
This paper characterises the geometric structure of receding horizon control (RHC) of linear, discre...
The receding-horizon (RH) methodology is extended to the design of a robust controller of H∞ type fo...
The receding–horizon (RH) methodology is extended to the design of a robust controller of H8 type fo...
Using the nonlinear analog of the Fake Riccati equation developed for linear systems, we derive an i...
Using the nonlinear analog of the Fake Riccati equation developed for linear systems, we derive an i...
As an on-line-optimization-based control technique, receding horizon control (RHC) has been a promin...
In the first part of this thesis stability robustness for quasi-infinite Receding Horizon Control (R...
Receding horizon optimal control is a special case of model predictive control in which optimal cont...
We propose the receding horizon H∞ control (RHHC) for input-delayed systems. A new cost function for...
In this paper, a new robust and optimization based nonlinear controller with respect to a certain ki...
Almost all proposed approaches to nonlinear receding horizon control with guaranteed stability are b...
A receding horizon H∞ predictive control method is derived by solving a min-max problem in nonrecurs...
The Receding Horizon Control (RHC) strategy consists in replacing an infinite-horizon stabilization ...
The study of robust nonlinear control has attracted increasing interest over the last few years. Pro...
International audienceThe Receding Horizon Control (RHC) strategy consists in replacing an infinite-...
This paper characterises the geometric structure of receding horizon control (RHC) of linear, discre...