Resumen

Este artículo presenta el desarrollo de un sistema caótico de cuatro alas, primeramente es simulado en el software de Matlab, después se proceden a calcular los parámetros de los componentes analógicos que representarán al sistema en un circuito electrónico que es simulado en Multisim. Serán otros componentes osciladores que generarán ondas sinusoidales para obtener la representación de elipses con distinta excentricidad. Posteriormente las señales son sumadas para obtener una trayectoria elíptica con interferencia caótica en donde son aplicados 2 casos diferenciados del sistema. Finalmente, en este trabajo se estableció una nueva metodología para representar sistemas caóticos esféricos analógicamente, cuyas interacción con sistemas orbitales permitirá abrir un nuevo campo en áreas de telecomunicaciones y la encriptación de la información.

Palabras Claves: Caos, esférico, interferencia, matlab, multisim.

Abstract

This article presents the development of a four-wings chaotic system. First of all it is simulated in the Matlab software and the mathematical modeling is obtained, after we proceed to calculate the parameters of the analog components that will represent the system in a circuit modeled in Multisim. Other oscillator components will generate sine waves obtaining the representation of ellipses with different eccentricity. Later the signals will be mixed to obtain an elliptical trajectory with chaotic interference where 2 differentiated cases of the system are applied. Finally, in this work a new methodology was established to represent spherical chaotic systems analogically, whose interaction with orbital systems will allow to open a new field in areas of telecommunications and information encryption.

Keywords: Chaos, interference, matlab, multisim, spherical.

Bulut G. G., Sahin M. E., Guler H., An implementation of chaotic circuits with Multisim-LabVIEW, International Advanced Researches and Engineering Journal pp.304-308, 2018.

Jia H., Wang S., A new four wing chaotic system generated by sign function, ETASR - Engineering, Technology & Applied Science Research, pp. 205-208, 2017.

Lin Y., Wang C., He L., Zhou L., A novel four wing non equilibrium chaotic system and its circuit implementation, Indian Academy of Sciences Journal of Physics, 2016.

Qi G., Chen G., A four wing atractor generated from a new 3-D quadratic autonomous system, Brazilian Journal of Physics, vol. 39, no. 3, September, 2009.

Qi G., Chen G., A spherical chaotic system, Springer Science, CrossMark, pp. 47-57, 2009.

Rui W., Hui S., Jie-Zhi W., Lu W., Yan-Chao W., Applications of modularized circuit designs in a new hyper-chaotic system circuit implementation, Chinese Physical Society and IOP Publishing Ltd, pp. 1-9, 2015.

Sampath S., Vaidyanathan S., Sambas A., Mohamed M. A., Mamat M., Mada Sanjaya W. S., A new four-scroll chaotic system with a self-excited atractor and circuit implementation, International Journal of Engineering & Technology, pp.1931-1935, 2018.

Zhang S., Zeng Y., Li Z., Generating one to four wing hidden attractors in a novel 4D no equilibrium chaotic system with extreme multistability, American Institute of Physics, pp. 3-11, 2018.