Add to ORKGInternational audienceThis paper investigates prediction-based stabilization for a class of linear systems subject to input-dependent input delay. The delay under consideration is implicitly defined by an integral relation depending on past values of the input. This situation is frequent in the process industry. We propose here to use a prediction on an horizon equal to the equilibrium value of the delay. By relying on a novel transport Partial Differential Equation (PDE) representation of the delay, encapsulating the input-dependency, we prove local exponential stabilization of the closed-loop system
Rapport interne de GIPSA-labInternational audienceThis paper focuses on a prediction-based control f...
Summarization: For nonlinear systems, we develop a PDE-based predictor-feedback control design, whic...
International audienceThis paper deals with prescribed-time stabilization of controllable linear sys...
International audienceThis paper investigates prediction-based stabilization for a class of linear s...
Abstract This study addresses the problem of delay compensation via a predictor-based output feedbac...
International audienceThis paper contains a result proving that a predictor feedback controller can ...
International audienceWe introduce a constant time horizon prediction-based controller to compensate...
International audienceIn this paper, it is proved that a predictor-based feedback controller can eff...
We study the stabilization problem of a linear time-invariant system with an unknown stochastic inpu...
Abstract—We introduce and solve stabilization problems for linear and nonlinear systems with state-d...
International audienceWe provide a new sequential predictors approach for the exponential stabilizat...
International audienceThis paper presents a prediction-based control law for linear difference equat...
International audienceThis paper studies the stabilization of linear systems with both state and inp...
International audienceThe input-output inversion of a system under the effect of input delays typica...
International audienceThis paper deals first with the problem of prescribed-time stability of linear...
Rapport interne de GIPSA-labInternational audienceThis paper focuses on a prediction-based control f...
Summarization: For nonlinear systems, we develop a PDE-based predictor-feedback control design, whic...
International audienceThis paper deals with prescribed-time stabilization of controllable linear sys...
International audienceThis paper investigates prediction-based stabilization for a class of linear s...
Abstract This study addresses the problem of delay compensation via a predictor-based output feedbac...
International audienceThis paper contains a result proving that a predictor feedback controller can ...
International audienceWe introduce a constant time horizon prediction-based controller to compensate...
International audienceIn this paper, it is proved that a predictor-based feedback controller can eff...
We study the stabilization problem of a linear time-invariant system with an unknown stochastic inpu...
Abstract—We introduce and solve stabilization problems for linear and nonlinear systems with state-d...
International audienceWe provide a new sequential predictors approach for the exponential stabilizat...
International audienceThis paper presents a prediction-based control law for linear difference equat...
International audienceThis paper studies the stabilization of linear systems with both state and inp...
International audienceThe input-output inversion of a system under the effect of input delays typica...
International audienceThis paper deals first with the problem of prescribed-time stability of linear...
Rapport interne de GIPSA-labInternational audienceThis paper focuses on a prediction-based control f...
Summarization: For nonlinear systems, we develop a PDE-based predictor-feedback control design, whic...
International audienceThis paper deals with prescribed-time stabilization of controllable linear sys...