用于安全通信的双级联分数阶混沌同步与模拟电路实现

2021 IEEE Second International Conference on Control, Measurement and Instrumentation (CMI) Pub Date : 2021-01-08 DOI:10.1109/CMI50323.2021.9362958

Anirudh Anand Velamore, Akhil Hegde, Aamir Ahmed Khan, Susmita Deb

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引用次数: 2

摘要

在本文中，我们打算有一个实际应用的混沌理论，其中我们利用混沌系统之间的同步概念，在一个安全的通信环境。我们开始使用非线性主动控制(NAC)方法为分数阶Bhalekar-Gejji和分数阶Chen系统设计同步控制器，并在我们提出的双级联混沌掩掩方法中使用它们来建立安全通信。最后，在MATLAB中对相位图、同步控制器设计结果和所提方案进行了数值仿真，并在NI Multisim中对电路设计进行了仿真验证。为了增强验证，还进行了相同的模拟电路硬件实现。图表的比较揭示了上述结果之间的密切一致，从而反映了本文的目标已经成功实现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Dual cascaded Fractional-order Chaotic Synchronization for Secure Communication with Analog Circuit Realisation

In this paper, we intend to have a practical application of chaos theory wherein we utilize the concept of synchronization between chaotic systems in a secure communication context. We set out to design synchronization controllers using the Nonlinear Active Control (NAC) method for the Fractional-order Bhalekar-Gejji as well as the Fractional-order Chen systems and to make use of them in our proposed dual cascaded chaotic masking approach to establish secure communication. Finally, the phase portraits, the results of the synchronization controller design and the proposed scheme are numerically simulated in MATLAB and verified by simulation of the circuit design in NI Multisim. An analog circuit hardware implementation of the same has also been carried out for enhanced verification. Comparison of the graphs reveal close agreement between the aforementioned results and hence reflect that the objectives of this paper have been successfully achieved.

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来源期刊

2021 IEEE Second International Conference on Control, Measurement and Instrumentation (CMI)

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