Stabilization under static-state feedback in presence of parametric uncertainties is studied for a class of feedback linearizable discrete-time nonlinear dynamics. An iterative design procedure is proposed for dynamics which admit the parametric strict-feedback form. Starting from a specific class of discrete-time dynamics, necessary and sufficient geometric conditions for the existence of the parametric strict-feedback form are give
Abstract The construction of backstepping control input needs the derivative of the virtual controll...
Three fundamental objectives in feedback control are stabilization, command following, and disturban...
10.1109/CDC.2009.5399624Proceedings of the IEEE Conference on Decision and Control6620-6625PCDC
In this paper a new approach to achieve nonlinear adaptive stabilization in discrete time is propose...
Abstract — In this paper, adaptive control is studied for a class of discrete-time nonlinear systems...
This paper presents adaptive asymptotic tracking control of a class of uncertain strict-feedback dis...
In recent decades, adaptive control of discrete-time systems has been studied extensively and lately...
This paper presents a tracking algorithm for the adaptive control of nonlinear dynamic systems repre...
This paper presents a tracking algorithm for the adaptive control of nonlinear dynamic systems repre...
10.1109/ACC.2009.5160082Proceedings of the American Control Conference586-591PRAC
Abstract—Most existing works on adaptive control of discrete-time systems focus on the case of linea...
We consider the problem of stabilizing a discrete-time nonlinear system using a feedback which is no...
An adaptive controller that solves the problem of rendering a system passive is presented for a spec...
The design of nonlinear discrete-time control schemes is quite difficult to handle. This is in part ...
This monograph deals with control problems of discrete-time dynamical systems which include linear a...
Abstract The construction of backstepping control input needs the derivative of the virtual controll...
Three fundamental objectives in feedback control are stabilization, command following, and disturban...
10.1109/CDC.2009.5399624Proceedings of the IEEE Conference on Decision and Control6620-6625PCDC
In this paper a new approach to achieve nonlinear adaptive stabilization in discrete time is propose...
Abstract — In this paper, adaptive control is studied for a class of discrete-time nonlinear systems...
This paper presents adaptive asymptotic tracking control of a class of uncertain strict-feedback dis...
In recent decades, adaptive control of discrete-time systems has been studied extensively and lately...
This paper presents a tracking algorithm for the adaptive control of nonlinear dynamic systems repre...
This paper presents a tracking algorithm for the adaptive control of nonlinear dynamic systems repre...
10.1109/ACC.2009.5160082Proceedings of the American Control Conference586-591PRAC
Abstract—Most existing works on adaptive control of discrete-time systems focus on the case of linea...
We consider the problem of stabilizing a discrete-time nonlinear system using a feedback which is no...
An adaptive controller that solves the problem of rendering a system passive is presented for a spec...
The design of nonlinear discrete-time control schemes is quite difficult to handle. This is in part ...
This monograph deals with control problems of discrete-time dynamical systems which include linear a...
Abstract The construction of backstepping control input needs the derivative of the virtual controll...
Three fundamental objectives in feedback control are stabilization, command following, and disturban...
10.1109/CDC.2009.5399624Proceedings of the IEEE Conference on Decision and Control6620-6625PCDC