We report the experimental verification of thresholding as a versatile tool for efficient and flexible chaos control. The strategy here simply involves monitoring a single state variable and resetting it when it exceeds a threshold. We demonstrate the success of the technique in rapidly controlling different chaotic electrical circuits, including a hyperchaotic circuit, onto stable fixed points and limit cycles of different periods, by thresholding just one variable. The simplicity of this controller entailing no run-time computation, and the ease and rapidity of switching between different targets it offers, suggests a potent tool for chaos based applications
In the previous study, a method to control chaos for switched dynamical systems with constant thresh...
Abstract | In this paper, we present and discuss some circuit experiments that verify our previous c...
In this letter, a simple nonlinear state feedback controller is designed for generating hyper-chaos ...
We show how stroboscopic threshold mechanisms can be effectively employed to obtain a wide range of ...
We report the experimental verification of a simple threshold controller, which clips the chaos to p...
This Letter proposes a novel thresholding approach for creating multi-scroll chaotic attractors. The...
Summarization: The classical Chua’s circuit that realizes chaotic behavior is presented. This circui...
Abstract — This paper proposes a novel threshold control approach for creating multi-scroll chaotic ...
We report the experimental realization of a simple threshold controller, which clips chaotic dynamic...
We review some results on the phenomenology of networks of chaotic elements under threshold activate...
We describe and discuss in detail some recent results by Sinha and Ditto [Phys. Rev. Lett. 81, 2156 ...
The overall intention of chaotic control is to eliminate chaos, and to force the system to become st...
We try to stabilize unstable periodic orbits embedded in a given chaotic hybrid dynamical system by ...
We propose a very simple implementation of a second-order nonautonomous chaotic oscillator, using a ...
Control algorithms that exploit chaotic behavior can vastly improve the performance of many practi...
In the previous study, a method to control chaos for switched dynamical systems with constant thresh...
Abstract | In this paper, we present and discuss some circuit experiments that verify our previous c...
In this letter, a simple nonlinear state feedback controller is designed for generating hyper-chaos ...
We show how stroboscopic threshold mechanisms can be effectively employed to obtain a wide range of ...
We report the experimental verification of a simple threshold controller, which clips the chaos to p...
This Letter proposes a novel thresholding approach for creating multi-scroll chaotic attractors. The...
Summarization: The classical Chua’s circuit that realizes chaotic behavior is presented. This circui...
Abstract — This paper proposes a novel threshold control approach for creating multi-scroll chaotic ...
We report the experimental realization of a simple threshold controller, which clips chaotic dynamic...
We review some results on the phenomenology of networks of chaotic elements under threshold activate...
We describe and discuss in detail some recent results by Sinha and Ditto [Phys. Rev. Lett. 81, 2156 ...
The overall intention of chaotic control is to eliminate chaos, and to force the system to become st...
We try to stabilize unstable periodic orbits embedded in a given chaotic hybrid dynamical system by ...
We propose a very simple implementation of a second-order nonautonomous chaotic oscillator, using a ...
Control algorithms that exploit chaotic behavior can vastly improve the performance of many practi...
In the previous study, a method to control chaos for switched dynamical systems with constant thresh...
Abstract | In this paper, we present and discuss some circuit experiments that verify our previous c...
In this letter, a simple nonlinear state feedback controller is designed for generating hyper-chaos ...