We show how stroboscopic threshold mechanisms can be effectively employed to obtain a wide range of stable cyclic behavior from chaotic systems, by simply varying the frequency of control. We demonstrate the success of the scheme in a prototypical one-dimensional map, as well as in a three-dimensional system modeling lasers where the threshold action is implemented on any one of the variables. It is evident that thresholding is capable of yielding exact limit cycles of varying periods and geometries when implemented at different intervals (even when very infrequent). This suggests a simple and potent mechanism for selecting different regular temporal patterns from chaotic dynamics
Acknowledgements The author wishes to acknowledge G. Giacomelli, M. Mulansky, and L. Ricci for early...
The classical notion of excitability refers to an equilibrium state that shows under the influence o...
The overall intention of chaotic control is to eliminate chaos, and to force the system to become st...
We report the experimental verification of thresholding as a versatile tool for efficient and flexib...
We demonstrate that the dynamics of an autonomous chaotic class C laser can be controlled to a perio...
We describe and discuss in detail some recent results by Sinha and Ditto [Phys. Rev. Lett. 81, 2156 ...
This Letter proposes a novel thresholding approach for creating multi-scroll chaotic attractors. The...
We review some results on the phenomenology of networks of chaotic elements under threshold activate...
We report the experimental verification of a simple threshold controller, which clips the chaos to p...
We demonstrate that the dynamics of an autonomous chaotic laser can be controlled to a periodic or s...
Summarization: The classical Chua’s circuit that realizes chaotic behavior is presented. This circui...
We have found a transition to chaos via type-II intermittency in a laser with a saturable absorber f...
In many real-life systems, transient chaotic dynamics plays a major role. For instance, the chaotic ...
Abstract — This paper proposes a novel threshold control approach for creating multi-scroll chaotic ...
We try to stabilize unstable periodic orbits embedded in a given chaotic hybrid dynamical system by ...
Acknowledgements The author wishes to acknowledge G. Giacomelli, M. Mulansky, and L. Ricci for early...
The classical notion of excitability refers to an equilibrium state that shows under the influence o...
The overall intention of chaotic control is to eliminate chaos, and to force the system to become st...
We report the experimental verification of thresholding as a versatile tool for efficient and flexib...
We demonstrate that the dynamics of an autonomous chaotic class C laser can be controlled to a perio...
We describe and discuss in detail some recent results by Sinha and Ditto [Phys. Rev. Lett. 81, 2156 ...
This Letter proposes a novel thresholding approach for creating multi-scroll chaotic attractors. The...
We review some results on the phenomenology of networks of chaotic elements under threshold activate...
We report the experimental verification of a simple threshold controller, which clips the chaos to p...
We demonstrate that the dynamics of an autonomous chaotic laser can be controlled to a periodic or s...
Summarization: The classical Chua’s circuit that realizes chaotic behavior is presented. This circui...
We have found a transition to chaos via type-II intermittency in a laser with a saturable absorber f...
In many real-life systems, transient chaotic dynamics plays a major role. For instance, the chaotic ...
Abstract — This paper proposes a novel threshold control approach for creating multi-scroll chaotic ...
We try to stabilize unstable periodic orbits embedded in a given chaotic hybrid dynamical system by ...
Acknowledgements The author wishes to acknowledge G. Giacomelli, M. Mulansky, and L. Ricci for early...
The classical notion of excitability refers to an equilibrium state that shows under the influence o...
The overall intention of chaotic control is to eliminate chaos, and to force the system to become st...