基于双扩展型Duffing振子的脉冲信号检测方法

doi:10.16182/j.issn1004731x.joss.17-0259

系统仿真学报 ›› 2019, Vol. 31 ›› Issue (7): 1416-1420.doi: 10.16182/j.issn1004731x.joss.17-0259

基于双扩展型Duffing振子的脉冲信号检测方法

罗文茂

南京信息职业技术学院通信学院,江苏南京 210023

收稿日期:2017-05-27 修回日期:2017-08-08 发布日期:2019-12-12
作者简介:罗文茂(1975-),男,四川乐山,硕士,副教授,研究方向为信号处理。
基金资助:
国家自然科学基金(61071022), 南京信息职业技术学院自然科学基金(YK20180501), 南京信息职业技术学院科技创新团队资助

Pulse Signal Detection Based on Dual Extended Duffing Oscillators

Luo Wenmao

Department of Telecommunications, Nanjing College of Information Technology, Nanjing 210023, China

Received:2017-05-27 Revised:2017-08-08 Published:2019-12-12

摘要/Abstract

摘要： 由于混沌振子能达到比通常的信号检测方法更低的信噪比,所以得到了广泛的研究。为了拓展现有混沌振子对非周期脉冲信号检测的适用范围,提出了一种基于双扩展型Duffing振子的检测方法。该方法利用两个广义时间尺度变换Duffing振子之间的状态变量差值检测信号,通过合理选择系统参数,可以检测信噪比低至-30 dB的非周期方波脉冲,比现有方法能达到更低的信号检测信噪比。通过仿真发现该方法能适用于多样的信号采样频率、很宽的信号幅值范围。

关键词: 脉冲信号检测, 双混沌振子, Duffing振子, 变时间尺度

Abstract: Because the chaotic oscillator can detect signal under lower SNR than the usual signal detection methods, it has been widely studied. In order to extend the application range of the existing chaotic oscillator to aperiodic pulse signal detection, a detection method based on dual Duffing oscillator is proposed. The method uses the difference between the state variables of two generalized time scale Duffing oscillators to detect signal. By selecting the system parameters rationally, the method can detect aperiodic square pulse while the SNR is as low as -30 dB, and detect signals at lower SNR than existing methods. Simulation results show that the method can be applied to signal detection in a wide range of signal sampling frequency and a wide range of signal amplitude.

Key words: pulse signal detection, dual chaotic oscillator, Duffing oscillator, variable time scale

中图分类号:

TN911.7

罗文茂. 基于双扩展型Duffing振子的脉冲信号检测方法[J]. 系统仿真学报, 2019, 31(7): 1416-1420.

Luo Wenmao. Pulse Signal Detection Based on Dual Extended Duffing Oscillators[J]. Journal of System Simulation, 2019, 31(7): 1416-1420.

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基于双扩展型Duffing振子的脉冲信号检测方法

Pulse Signal Detection Based on Dual Extended Duffing Oscillators

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