Dynamics, Control and Secure Transmission Electronic Circuit Implementation of a New 3D Chaotic System in Comparison With 50 Reported Systems
The very high demand for chaotic systems in the fields of sciences, particularly in secure communication, leads numerous researchers to build novel systems. This work announces a new easy to implement 3D chaotic system with five quadratic nonlinearities and three positive parameters, the proposed sy...
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oai:doaj.org-article:9da92ce6b3b847a4bef0c103bdb4fb422021-11-23T00:01:50ZDynamics, Control and Secure Transmission Electronic Circuit Implementation of a New 3D Chaotic System in Comparison With 50 Reported Systems2169-353610.1109/ACCESS.2021.3126655https://doaj.org/article/9da92ce6b3b847a4bef0c103bdb4fb422021-01-01T00:00:00Zhttps://ieeexplore.ieee.org/document/9606899/https://doaj.org/toc/2169-3536The very high demand for chaotic systems in the fields of sciences, particularly in secure communication, leads numerous researchers to build novel systems. This work announces a new easy to implement 3D chaotic system with five quadratic nonlinearities and three positive parameters, the proposed system is complex with larger bandwidth compared to at least 50 other systems that have been described. It contains eight terms and it can generate chaotic, periodic and quasi-periodic behaviors. The main dynamical properties of the proposed system are studied using Kaplan-Yorke dimension (KYD), Lyapunov exponents, bifurcation diagrams, multistability, equilibrium points stability and dissipativity. Then, the eight terms system feasibility is verified using Multisim software by designing its electronic circuit. In addition, active controllers are designed for leading the proposed system to achieve stability, tracking a desired dynamic and synchronizing with an identical model. Finally, using drive response synchronization, a novel secure communication electrical circuit design is built based on the suggested approach. The findings from numerical experiment demonstrated the new system’s success in completing the encryption/decryption process, as well as its secured transmission technique.Khaled BenkouiderToufik BoudenAceng SambasMohamad Afendee MohamedIbrahim Mohammed SulaimanMustafa MamatMohd Asrul Hery IbrahimIEEEarticleBandwidthchaotic communicationchaotic systemscircuit Simulationcommand and control systemsElectrical engineering. Electronics. Nuclear engineeringTK1-9971ENIEEE Access, Vol 9, Pp 152150-152168 (2021) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
Bandwidth chaotic communication chaotic systems circuit Simulation command and control systems Electrical engineering. Electronics. Nuclear engineering TK1-9971 |
| spellingShingle |
Bandwidth chaotic communication chaotic systems circuit Simulation command and control systems Electrical engineering. Electronics. Nuclear engineering TK1-9971 Khaled Benkouider Toufik Bouden Aceng Sambas Mohamad Afendee Mohamed Ibrahim Mohammed Sulaiman Mustafa Mamat Mohd Asrul Hery Ibrahim Dynamics, Control and Secure Transmission Electronic Circuit Implementation of a New 3D Chaotic System in Comparison With 50 Reported Systems |
| description |
The very high demand for chaotic systems in the fields of sciences, particularly in secure communication, leads numerous researchers to build novel systems. This work announces a new easy to implement 3D chaotic system with five quadratic nonlinearities and three positive parameters, the proposed system is complex with larger bandwidth compared to at least 50 other systems that have been described. It contains eight terms and it can generate chaotic, periodic and quasi-periodic behaviors. The main dynamical properties of the proposed system are studied using Kaplan-Yorke dimension (KYD), Lyapunov exponents, bifurcation diagrams, multistability, equilibrium points stability and dissipativity. Then, the eight terms system feasibility is verified using Multisim software by designing its electronic circuit. In addition, active controllers are designed for leading the proposed system to achieve stability, tracking a desired dynamic and synchronizing with an identical model. Finally, using drive response synchronization, a novel secure communication electrical circuit design is built based on the suggested approach. The findings from numerical experiment demonstrated the new system’s success in completing the encryption/decryption process, as well as its secured transmission technique. |
| format |
article |
| author |
Khaled Benkouider Toufik Bouden Aceng Sambas Mohamad Afendee Mohamed Ibrahim Mohammed Sulaiman Mustafa Mamat Mohd Asrul Hery Ibrahim |
| author_facet |
Khaled Benkouider Toufik Bouden Aceng Sambas Mohamad Afendee Mohamed Ibrahim Mohammed Sulaiman Mustafa Mamat Mohd Asrul Hery Ibrahim |
| author_sort |
Khaled Benkouider |
| title |
Dynamics, Control and Secure Transmission Electronic Circuit Implementation of a New 3D Chaotic System in Comparison With 50 Reported Systems |
| title_short |
Dynamics, Control and Secure Transmission Electronic Circuit Implementation of a New 3D Chaotic System in Comparison With 50 Reported Systems |
| title_full |
Dynamics, Control and Secure Transmission Electronic Circuit Implementation of a New 3D Chaotic System in Comparison With 50 Reported Systems |
| title_fullStr |
Dynamics, Control and Secure Transmission Electronic Circuit Implementation of a New 3D Chaotic System in Comparison With 50 Reported Systems |
| title_full_unstemmed |
Dynamics, Control and Secure Transmission Electronic Circuit Implementation of a New 3D Chaotic System in Comparison With 50 Reported Systems |
| title_sort |
dynamics, control and secure transmission electronic circuit implementation of a new 3d chaotic system in comparison with 50 reported systems |
| publisher |
IEEE |
| publishDate |
2021 |
| url |
https://doaj.org/article/9da92ce6b3b847a4bef0c103bdb4fb42 |
| work_keys_str_mv |
AT khaledbenkouider dynamicscontrolandsecuretransmissionelectroniccircuitimplementationofanew3dchaoticsystemincomparisonwith50reportedsystems AT toufikbouden dynamicscontrolandsecuretransmissionelectroniccircuitimplementationofanew3dchaoticsystemincomparisonwith50reportedsystems AT acengsambas dynamicscontrolandsecuretransmissionelectroniccircuitimplementationofanew3dchaoticsystemincomparisonwith50reportedsystems AT mohamadafendeemohamed dynamicscontrolandsecuretransmissionelectroniccircuitimplementationofanew3dchaoticsystemincomparisonwith50reportedsystems AT ibrahimmohammedsulaiman dynamicscontrolandsecuretransmissionelectroniccircuitimplementationofanew3dchaoticsystemincomparisonwith50reportedsystems AT mustafamamat dynamicscontrolandsecuretransmissionelectroniccircuitimplementationofanew3dchaoticsystemincomparisonwith50reportedsystems AT mohdasrulheryibrahim dynamicscontrolandsecuretransmissionelectroniccircuitimplementationofanew3dchaoticsystemincomparisonwith50reportedsystems |
| _version_ |
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