To investigate morphable chaotic logic we have constructed, out of discrete circuitry, a chaotic logic block that can morph between all two input, one output logic gates. Additionally, we investigate the sensitivity of such a block to noise and have been able to formulate a method that demonstrates that the chaotic saddles of the inherent chaotic dynamics can be exploited to enhance the robustness of the logic functions with respect to noise.</p
This paper focuses on the dynamics of coupled Chua's circuits driven by two sinusoidal signals. In p...
The nonautonomous version of Chua's circuit exhibits a wide variety of bifurcation phenomena and cha...
This chapter discusses the problem of \u201cchaos generation\u201d, namely efficient techniques for ...
To investigate morphable chaotic logic we have constructed, out of discrete circuitry, a chaotic log...
In this paper, we implement the first realization of a reconfigurable chaotic based logic block that...
This paper addresses and reports the construction of a reconfigurable logic block that can morph bet...
Certain nonlinear systems can switch between dynamical attractors occupying different regions of pha...
Chaotic systems can yield a wide variety of patterns. Here we use this feature to generate all possi...
This paper introduces a new scheme to achieve a dynamic logic gate which can be adjusted flexibly to...
We report the experimental implementation of the most fundamental NOR gate with a chaotic Chua's cir...
We first review ideas of harnessing chaotic attractors to implement robust and flexible logic gates,...
Chua's circuit is very suitable as a programmable chaos generator because of its robust nonlinearity...
4noThis chapter discusses the problem of "chaos generation", namely efficient techniques for the des...
The Chua circuit is among the simplest non-linear circuits that shows most complex dynamical behavio...
Rapid advancement in technology has led to an increase in security threats, such as side-channel att...
This paper focuses on the dynamics of coupled Chua's circuits driven by two sinusoidal signals. In p...
The nonautonomous version of Chua's circuit exhibits a wide variety of bifurcation phenomena and cha...
This chapter discusses the problem of \u201cchaos generation\u201d, namely efficient techniques for ...
To investigate morphable chaotic logic we have constructed, out of discrete circuitry, a chaotic log...
In this paper, we implement the first realization of a reconfigurable chaotic based logic block that...
This paper addresses and reports the construction of a reconfigurable logic block that can morph bet...
Certain nonlinear systems can switch between dynamical attractors occupying different regions of pha...
Chaotic systems can yield a wide variety of patterns. Here we use this feature to generate all possi...
This paper introduces a new scheme to achieve a dynamic logic gate which can be adjusted flexibly to...
We report the experimental implementation of the most fundamental NOR gate with a chaotic Chua's cir...
We first review ideas of harnessing chaotic attractors to implement robust and flexible logic gates,...
Chua's circuit is very suitable as a programmable chaos generator because of its robust nonlinearity...
4noThis chapter discusses the problem of "chaos generation", namely efficient techniques for the des...
The Chua circuit is among the simplest non-linear circuits that shows most complex dynamical behavio...
Rapid advancement in technology has led to an increase in security threats, such as side-channel att...
This paper focuses on the dynamics of coupled Chua's circuits driven by two sinusoidal signals. In p...
The nonautonomous version of Chua's circuit exhibits a wide variety of bifurcation phenomena and cha...
This chapter discusses the problem of \u201cchaos generation\u201d, namely efficient techniques for ...