Experimental Synchronization of two Integrated Multi-scroll Chaotic Oscillators

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J.M. Muñoz-Pacheco
E. Tlelo-Cuautle
I. E. Flores-Tiro
R. Trejo-Guerra

Abstract

Chaotic oscillators have been implemented with a wide variety of discrete electronic devices and quite fewrealizations using integrated circuit technology. This article describes the synchronization of two chaotic oscillatorsalready fabricated with complementary metal-oxide-semiconductor (CMOS) integrated circuit technology of 0.5umand generating 3- and 5-scrolls. In order to attain the synchronization, we use a master-slave topology withunidirectional coupling. Within this context, a system parameter iterates until the correlation coefficient computedbetween the chaotic signals generated by the master and slave systems approximates to unity. For the followingparameter, its value depends on the standard deviations from the individual signals contrary to previous one. Bycombining those statistical relationships according to the number of system parameters, we can synchronizeintegrated chaotic oscillators. Theoretical model simulations of two chaotic oscillators generating 3- and 5-scrolls,and experimental results for two integrated 3-scroll chaotic oscillators validate this approach. Stability and erroranalysis are also included.

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How to Cite
Muñoz-Pacheco, J., Tlelo-Cuautle, E., Flores-Tiro, I. E., & Trejo-Guerra, R. (2014). Experimental Synchronization of two Integrated Multi-scroll Chaotic Oscillators. Journal of Applied Research and Technology, 12(3). https://doi.org/10.1016/S1665-6423(14)71626-8
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