[[abstract]]The Duffing oscillator is a useful model for the non-linear behavior of structural systems. This paper studies the applications of two control strategies to Duffing oscillators; namely, an optimal polynomial control and robust sliding mode control. An advantage of the polynomial controller investigated is that, for a given appropriate weighting matrices, the gain matrices for different orders of the controller can be computed easily by solving Riccati and Lyapunov equations. It is demonstrated through numerical simulation results that the stability region of the softening Duffing system can be expanded rapidly by the optimal polynomial controller and the entire state space of the closed-loop system becomes asymptotically stable ...
This paper studies a nonlinear feedback controller based on Optimal Polynomial Control (OPC) in semi...
This paper studies the linear feedback control strategies for nonlinear systems. Asymptotic stabilit...
Controller design for nonlinear systems in its general form is complicated and an open problem. Find...
We present a unique method in this study for developing sliding mode controllers for a class of nonl...
[[abstract]]In this paper, we investigate the performance of optimal polynomial control for the vibr...
In this work, the linear and nonlinear feedback control techniques for chaotic systems were been con...
A method for controlling nonlinear dynamics and chaos previously developed by the authors is applied...
AbstractThis paper presents a numerical method for solving the controlled Duffing oscillator. The me...
In this work, we use a nonlinear control based on Optimal Linear Control. We used as mathematical mo...
A compendium of the authors' recently published results, this book discusses sliding mode control of...
This article addresses the robust exponential stabilization problem of underactuated mechanical syst...
In this paper the dynamics of the ideal and non-ideal Duffing oscillator with chaotic behavior is co...
This paper investigates the control of a forced nonlinear-oscillator which is composed of a series-c...
A new sliding mode control technique for a class of SISO dynamic systems is presented in this chapte...
We develop feedback control strategies for a chaotic dynamic system such as the Duffing equation. Ou...
This paper studies a nonlinear feedback controller based on Optimal Polynomial Control (OPC) in semi...
This paper studies the linear feedback control strategies for nonlinear systems. Asymptotic stabilit...
Controller design for nonlinear systems in its general form is complicated and an open problem. Find...
We present a unique method in this study for developing sliding mode controllers for a class of nonl...
[[abstract]]In this paper, we investigate the performance of optimal polynomial control for the vibr...
In this work, the linear and nonlinear feedback control techniques for chaotic systems were been con...
A method for controlling nonlinear dynamics and chaos previously developed by the authors is applied...
AbstractThis paper presents a numerical method for solving the controlled Duffing oscillator. The me...
In this work, we use a nonlinear control based on Optimal Linear Control. We used as mathematical mo...
A compendium of the authors' recently published results, this book discusses sliding mode control of...
This article addresses the robust exponential stabilization problem of underactuated mechanical syst...
In this paper the dynamics of the ideal and non-ideal Duffing oscillator with chaotic behavior is co...
This paper investigates the control of a forced nonlinear-oscillator which is composed of a series-c...
A new sliding mode control technique for a class of SISO dynamic systems is presented in this chapte...
We develop feedback control strategies for a chaotic dynamic system such as the Duffing equation. Ou...
This paper studies a nonlinear feedback controller based on Optimal Polynomial Control (OPC) in semi...
This paper studies the linear feedback control strategies for nonlinear systems. Asymptotic stabilit...
Controller design for nonlinear systems in its general form is complicated and an open problem. Find...