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Behavioral effects of a four-wing attractor with circuit realization: a cryptographic perspective on immersion

In this paper, we propose an innovative chaotic system, combining fractional derivative and sine-hyperbolic nonlinearity with circuit execution. The study of this system is conducted via an analog circuit simulator, using two anti-parallel semiconductor diodes to provide hyperbolic sine nonlinearity...

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Published in:	Communications in theoretical physics 2020-12, Vol.72 (12), p.125004
Main Authors:	Khan, Najeeb Alam, Qureshi, Muhammad Ali, Hameed, Tooba, Akbar, Saeed, Ullah, Saif
Format:	Article
Language:	English
Subjects:	circuit realization encryption hyperbolic sine multi-wing attractors
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creator	Khan, Najeeb Alam Qureshi, Muhammad Ali Hameed, Tooba Akbar, Saeed Ullah, Saif
description	In this paper, we propose an innovative chaotic system, combining fractional derivative and sine-hyperbolic nonlinearity with circuit execution. The study of this system is conducted via an analog circuit simulator, using two anti-parallel semiconductor diodes to provide hyperbolic sine nonlinearity, and to function as operational amplifiers. The multi-stability of the system is also enhanced with the help of multi-equilibrium points for distinct real orders of system. The system explores the generation of a four-wing attractor in different phases, both numerically and electronically. By changing the input parameters of the system, different graphs are generated for current flow in state, phase, and space, to confirm the precision of the fractional order derivatives. A reasonable simulation shows that the deliberate circuit provides effective chaos in terms of speed and accuracy, which is comensurate with the numerical simulation. This nonlinear chaotic behavior is utilized to encrypt sound (.wav), images (.jpg), and animated (.gif) data which are a major requirement for the security of communication systems. The proposed circuit performs chaos and cryptographic tasks with high-effective analog computation, and constitutes a novel approach to this area of research.
doi_str_mv	10.1088/1572-9494/abb7d1
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The study of this system is conducted via an analog circuit simulator, using two anti-parallel semiconductor diodes to provide hyperbolic sine nonlinearity, and to function as operational amplifiers. The multi-stability of the system is also enhanced with the help of multi-equilibrium points for distinct real orders of system. The system explores the generation of a four-wing attractor in different phases, both numerically and electronically. By changing the input parameters of the system, different graphs are generated for current flow in state, phase, and space, to confirm the precision of the fractional order derivatives. A reasonable simulation shows that the deliberate circuit provides effective chaos in terms of speed and accuracy, which is comensurate with the numerical simulation. This nonlinear chaotic behavior is utilized to encrypt sound (.wav), images (.jpg), and animated (.gif) data which are a major requirement for the security of communication systems. 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A reasonable simulation shows that the deliberate circuit provides effective chaos in terms of speed and accuracy, which is comensurate with the numerical simulation. This nonlinear chaotic behavior is utilized to encrypt sound (.wav), images (.jpg), and animated (.gif) data which are a major requirement for the security of communication systems. The proposed circuit performs chaos and cryptographic tasks with high-effective analog computation, and constitutes a novel approach to this area of research.</abstract><pub>IOP Publishing</pub><doi>10.1088/1572-9494/abb7d1</doi><tpages>36</tpages><orcidid>https://orcid.org/0000-0001-6242-0658</orcidid></addata></record>
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subjects	circuit realization encryption hyperbolic sine multi-wing attractors
title	Behavioral effects of a four-wing attractor with circuit realization: a cryptographic perspective on immersion
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