基于Chen系统的频率输出石英换能器混沌收发器

Q3 Computer Science Radioelectronic and Computer Systems Pub Date : 2022-05-18 DOI:10.32620/reks.2022.2.14
Serhii Pidchenko, A. Taranchuk, Maksym Slobodian
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引用次数: 0

摘要

介绍了双耦合陈氏系统单向同步的应用。尽管高度依赖于初始条件,这意味着两个初始接近的相轨迹随着时间变得不相关,但有可能同步两个动态系统以使它们相同地进化。利用混沌传输数据需要将信息信号与混沌载波混合。该过程对数据进行了加密,扩展了信息信号的频谱,提高了信息的安全性和可靠性。因此,在现代电信和遥测应用中使用混沌动力学设备的前景是由于几个因素,包括高信息容量,各种频率和消息的机密性。所提出的方案被认为用于测量传感器设计,该设计要求传感器与方案的其余部分保持较远的距离。我们提出了一种混沌振荡器作为石英传感器传感器收发模块的应用,该模块可用于遥测应用。非线性陈氏系统产生非周期但确定的振荡过程及其在信号传输中的应用是本文研究的课题。考虑了两个单向连接陈系统的完全同步及其信号传输应用。目标是为石英测量传感器方案开发一个收发器扩展,以确保传感器在远离方案其余部分的长距离上稳定运行。研究结果:采用混沌同步方案传输从石英传感器换能器的差频块获得的调频信号。此外,还对陈氏动力系统进行了数学建模和数值模拟。利用Matlab软件对系统的微分方程进行了数值求解。为了研究动力状态随模型参数的变化,计算了Lyapunov指数谱,并构造了分岔图。利用Multisim软件构建Chen振荡器的电路设计,采用PSpice模型对电子元件进行仿真。作为石英换能器在测量装置中应用的延伸,提出了一种频率输出信号与混沌载波混沌混合的模拟信号传输系统模型。
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Chen system-based chaotic transceiver for frequency output quartz transducers
The application of unidirectional synchronization of two coupled Chen systems is exhibited in this work. In spite of the high dependence on initial conditions, which means that two initially close phase trajectories with time become uncorrelated, it is possible to synchronize two dynamic systems to make them evolve identically. Data transmission using chaos requires mixing an information signal with a chaotic carrier. This procedure performs data encryption and spreads the spectrum of an information signal, which increases information security and reliability. Thus, the prospect of using devices with chaotic dynamics in modern telecommunication and telemetry applications is due to several factors, including high information capacity, various frequencies, and confidentiality of messages. The proposed scheme is considered to be used in a measuring transducer design that requires sensors to operate at a long distance from the rest of the scheme. We propose an application of a chaotic oscillator as a transceiver module for a quarts sensor transducer, which could be used in a telemetry application. The process of producing non-periodic but determined oscillations by the non-linear Chen system and signal transmission application, based on it, are the subject of the research. The complete synchronization of two unidirectionally connected Chen systems and its signal transmission application are considered. The goal is to develop a transceiver extension for the quartz measuring transducer scheme to ensure the stable operation of sensors at a long distance from the rest of the scheme. The result of the research: a chaos synchronization scheme was applied to transmit a frequency-modulated signal, obtained from a difference-frequency block of the quartz sensor transducer. Additionally, the mathematical model and numerical modeling of the Chen dynamical system has been done. The numerical solution of the system's differential equations was obtained using Matlab software. To study the change in the dynamic regime depending on the parameters of the model, the spectrum of Lyapunov exponents was calculated and bifurcation diagrams were constructed. The circuit design of the Chen oscillator was built using Multisim software, which uses the PSpice model to simulate electrical components. A model of an analog signal transmission system with chaotic mixing of a frequency output signal with a chaotic carrier has been proposed as an extension of the use of quartz transducers in measuring devices.
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来源期刊
Radioelectronic and Computer Systems
Radioelectronic and Computer Systems Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
3.60
自引率
0.00%
发文量
50
审稿时长
2 weeks
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