International audienceWe provide a new sequential predictors approach for the exponential stabilization of linear time-varying systems. Our method circumvents the problem of constructing and estimating distributed terms in the control laws, and allows arbitrarily large input delay bounds, pointwise time-varying input delays, and uncertainties. Instead of using distributed terms, our approach to handling longer delays is to increase the number of predictors. We obtain explicit formulas to find lower bounds for the number of required predictors. The formulas involve bounds on the delays and on the derivatives of the delays. We illustrate our method in three examples
We study stabilization problems for a broad class of time varying linear systems that have constant ...
This book provides a systematic approach to the design of predictor based controllers for (time-vary...
International audience—We propose a prediction based stabilization approach for a general class of n...
International audienceWe provide a new sequential predictors approach for the exponential stabilizat...
We provide a new sequential predictors approach for the exponential stabilization of linear time-var...
International audienceWe provide a new sequential predictors approach for the exponential stabilizat...
International audienceIn a 2016 IEEE Conference on Decision and Control paper, our team designed seq...
In a 2016 IEEE Conference on Decision and Control paper, our team designed sequential predictors for...
International audienceWe provide new sequential predictors for a largeclass of linear time-varying s...
International audienceWe provide sequential predictors for delayed time-varying discrete time linear...
International audienceWe study time-varying linear discrete time systems with uncertainties and time...
We build sequential predictors for time-varying linear systems with time-varying input delays, outpu...
We study time-varying linear discrete time systems with uncertainties and time-varying measurement d...
We study stabilization problems for time-varying linear systems with constant input delays. Our redu...
We study stabilization problems for a broad class of time varying linear systems that have constant ...
This book provides a systematic approach to the design of predictor based controllers for (time-vary...
International audience—We propose a prediction based stabilization approach for a general class of n...
International audienceWe provide a new sequential predictors approach for the exponential stabilizat...
We provide a new sequential predictors approach for the exponential stabilization of linear time-var...
International audienceWe provide a new sequential predictors approach for the exponential stabilizat...
International audienceIn a 2016 IEEE Conference on Decision and Control paper, our team designed seq...
In a 2016 IEEE Conference on Decision and Control paper, our team designed sequential predictors for...
International audienceWe provide new sequential predictors for a largeclass of linear time-varying s...
International audienceWe provide sequential predictors for delayed time-varying discrete time linear...
International audienceWe study time-varying linear discrete time systems with uncertainties and time...
We build sequential predictors for time-varying linear systems with time-varying input delays, outpu...
We study time-varying linear discrete time systems with uncertainties and time-varying measurement d...
We study stabilization problems for time-varying linear systems with constant input delays. Our redu...
We study stabilization problems for a broad class of time varying linear systems that have constant ...
This book provides a systematic approach to the design of predictor based controllers for (time-vary...
International audience—We propose a prediction based stabilization approach for a general class of n...