Maysoon M. Aziz scite author profile

This paper extends and improves the feedback control strategies. In detailed, the ordinary feedback, dislocated feedback, speed feedback and enhancing feedback control for a several dynamical systems are discussed here. It is noticed that there some problems by these strategies. For this reason, this Letter proposes a novel approach for treating these problems. The results obtained in this paper show that the strategies with positive feedback coefficients can be controlled in two cases and failed in another two cases. Theoretical and numerical simulations are given to illustrate and verify the results.

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Strategies of linear feedback control and its classification

Al-Azzawi

Aziz

2019

TELKOMNIKA

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This paper is concerned with the control problem for a class of nonlinear dynamical (hyperchaotic) systems based on linear feedback control strategies. Since the obtaining positive feedback coefficients are required for these strategies. From this point of view, the available ordinary/dislocated/enhancing and speed feedback control strategies can be classified into two main aspects: control the dynamical systems or can't be control although it own a positive feedback coefficients. So, we focused on these cases, and suggest a new method to recognize which system can be controller it or not. In this method, we divided the positive feedback coefficient which obtain from these strategies in to four categories according to possibility of suppression and show the reason for each case. Finally, numerical simulations are given to illustrate and verify the results.

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Hybrid chaos synchronization between two different hyperchaotic systems via two approaches

Aziz

Al-Azzawi

2017

Optik

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Maysoon M. Aziz

Chaos synchronization of nonlinear dynamical systems via a novel analytical approach

Anti-synchronization of nonlinear dynamical systems based on Gardano’s method

Some Problems of Feedback Control Strategies and It’s Treatment

Strategies of linear feedback control and its classification

Hybrid chaos synchronization between two different hyperchaotic systems via two approaches

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