We report the experimental implementation of the most fundamental NOR gate with a chaotic Chua's circuit by a simple threshold mechanism. This provides a proof-of-principle experiment to demonstrate the universal computing capability of chaotic circuits in continuous time systems
Several recent studies have focussed on the feasibility of controlling and synchronization of chaoti...
We propose a very simple implementation of a second-order nonautonomous chaotic oscillator, using a ...
Chaos generators are generally designed and implemented by using analog circuit design techniques. A...
We report the experimental realization of a simple threshold controller, which clips chaotic dynamic...
We report the experimental verification of a simple threshold controller, which clips the chaos to p...
Summarization: The classical Chua’s circuit that realizes chaotic behavior is presented. This circui...
In this study, a novel nonautonomous version of autonomous Chua's circuit is presented. The proposed...
To investigate morphable chaotic logic we have constructed, out of discrete circuitry, a chaotic log...
The nonautonomous version of Chua's circuit exhibits a wide variety of bifurcation phenomena and cha...
We show by computer simulation that chaos can occur in a sinusoidally driven second-order circuit ma...
Basic principles of implementing the most fundamental computing functions by chaotic elements are de...
Reservoir Computing has been highlighted as a promising methodology to perform computation in dynami...
This work presents the hardware demonstrator of a secure encryption system based on synchronised Chu...
The Chua circuit is among the simplest non-linear circuits that shows most complex dynamical behavio...
Abstract-In this introductory tutorial paper, we demonstrate the generality of Chua's oscillato...
Several recent studies have focussed on the feasibility of controlling and synchronization of chaoti...
We propose a very simple implementation of a second-order nonautonomous chaotic oscillator, using a ...
Chaos generators are generally designed and implemented by using analog circuit design techniques. A...
We report the experimental realization of a simple threshold controller, which clips chaotic dynamic...
We report the experimental verification of a simple threshold controller, which clips the chaos to p...
Summarization: The classical Chua’s circuit that realizes chaotic behavior is presented. This circui...
In this study, a novel nonautonomous version of autonomous Chua's circuit is presented. The proposed...
To investigate morphable chaotic logic we have constructed, out of discrete circuitry, a chaotic log...
The nonautonomous version of Chua's circuit exhibits a wide variety of bifurcation phenomena and cha...
We show by computer simulation that chaos can occur in a sinusoidally driven second-order circuit ma...
Basic principles of implementing the most fundamental computing functions by chaotic elements are de...
Reservoir Computing has been highlighted as a promising methodology to perform computation in dynami...
This work presents the hardware demonstrator of a secure encryption system based on synchronised Chu...
The Chua circuit is among the simplest non-linear circuits that shows most complex dynamical behavio...
Abstract-In this introductory tutorial paper, we demonstrate the generality of Chua's oscillato...
Several recent studies have focussed on the feasibility of controlling and synchronization of chaoti...
We propose a very simple implementation of a second-order nonautonomous chaotic oscillator, using a ...
Chaos generators are generally designed and implemented by using analog circuit design techniques. A...
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