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浙江大学学报(工学版)
JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE)  2017, Vol. 51 Issue (10): 2084-2092    DOI: 10.3785/j.issn.1008-973X.2017.10.025
Telecommunications Technology     
Strengthening strategy of parameter-tuning cascaded stochastic resonance
HAO Jing1,2, DU Tai-hang1, JIANG Chun-dong1, CHEN Tong-hai3
1. School of Control Science and Engineering, Hebei University of Technology, Tianjin 300130, China;
2. Department of Computer Application, Shijiazhuang Information Engineering Vocational College, Shijiazhuang 050000, China;
3. Chengdu Monitoring Station of State Radio Monitoring Center, Chengdu 611139, China
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Abstract  

The enhanced system of three level cascaded stochastic resonance was proposed in order to realize the detection of the weak signal and improve the signal to noise ratio of the output signal. Effect of stochastic resonance phenomenon of the cascade system with damping coefficient and system shape parameters was analyzed. The output performance of the cascaded stochastic resonance system is obviously better than that of the traditional method by adjusting the main control parameter (damping coefficient,transition width, transition threshold) of each level. The detection of weak signal of large parameters was realized through choosing appropriate parameters of the system. The system respond was controlled and the output signal noise ratio was improved by purposely setting parameters. Simulation data and practical application show that the method is simple and feasible, and can detect weak signal in strong noise background according to the demand.

Received: 08 August 2016      Published: 27 September 2017
CLC:  TN911  
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Cite this article:

HAO Jing, DU Tai-hang, JIANG Chun-dong, CHEN Tong-hai. Strengthening strategy of parameter-tuning cascaded stochastic resonance. JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE), 2017, 51(10): 2084-2092.

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http://www.zjujournals.com/eng/10.3785/j.issn.1008-973X.2017.10.025     OR     http://www.zjujournals.com/eng/Y2017/V51/I10/2084


调参级联随机共振系统加强策略

为了更好地实现微弱信号的检测,提高输出信号的信噪比,提出三级级联随机共振加强系统.研究阻尼系数和系统形状参数对级联系统发生随机共振现象的影响,通过分别调节每级主控参数(阻尼系数、跃迁宽度和跃迁阈值),使得级联随机共振系统的输出性能明显优于传统方法,证实了选取合适的系统参数,能够实现大参数微弱信号的检测;有针对性地对参数进行设置,可以控制系统输出,提高输出信噪比.仿真数据与实际应用表明,该方法简单可行,根据需求设置参数能够实现强噪声背景下微弱信号的检测.

[1] BENZI R, SUTERA A, VULPIANI A. The mechanism of stochastic resonance[J]. Journal of Physics A:Mathematical and General, 1981, 14(11):453-457.
[2] YI Q, YI T, YE H, et al. Adaptive bistable stochastic resonance and its application in mechanical fault feature extraction[J]. Journal of Sound and Vibration, 2014, 333(26):7386-7400.
[3] 侯成郭,罗柏文,李地.线性调频信号的级联随机共振数字化接收[J].电子与信息学报,2015,37(12):2866-2871. HOU Cheng-guo, LUO Bo-wen, LI Di. Cascaded stochastic resonance for digitized receiving of linear frequency modulation signal[J]. Journal of Electronics and Information Technology, 2015, 37(12):2866-2871.
[4] 焦尚彬,杨蓉,张青,等.稳定噪声驱动的非对称双稳随机共振现象[J].物理学报,2015,64(2):020502-1-9. JIAO Shang-bin, YANG Rong, ZHANG Qing, et al. Stochastic resonance of asymmetric bistable system with αstable noise[J]. Acta Physica Sinica, 2015, 64(2):020502-1-9.
[5] 崔伟成,李伟,孟凡磊,等.基于果蝇优化算法的自适应随机共振轴承故障信号检测方法[J].振动与冲击,2016, 35(10):96-100. CUI Wei-cheng, LI Wei, MENG Fan-lei, et al. Adaptive stochastic resonance method for bearing fault detection based on fruit fly optimization algorithm[J]. Journal of Vibration and Shock, 2016, 35(10):96-100.
[6] YANG B Y, WANG L L, RAN S H, et al. Weak signal detection based on adaptive cascaded bistable stochastic resonance system[C]//13th CIRP Conference on Computer Aided Tolerancing. Hangzhou:Procedia Cirp, 2015(27):292-297.
[7] 林敏,方利民.双稳系统演化的时间尺度与随机共振的加强[J].物理学报,2009,58(04):2136-2140. LIN Min, FANG Li-min. Time scales of the evolution in bistable system and the reinforcement of stochastic resonance[J]. Acta Physica Sinica, 2009, 58(04):2136-2140.
[8] 曲媛,王辅忠,孙静静.级联双稳系统随机共振的加强[J].中国科学:物理学力学天文学, 2011, 41(10):1190-1197. QU Yuan, WANG Fu-zhong, SUN Jing-jing. Reinforcement of stochastic resonance in cascaded bistable system[J]. Scientia Sinica Physica, Mechanica and Astronomica, 2011, 41(10):1190-1197.
[9] 赖志慧,冷永刚,范胜波.级联双稳Duffing系统的随机共振研究[J].物理学报,2013, 62(7):070503-1-9. LAI Zhi-hui, LENG Yong-gang, FAN Sheng-bo. Stochastic resonance of cascaded bistable duffing system[J]. Acta Physica Sinica, 2013, 62(7):070503-1-9.
[10] 热依扎.海然,山拜.达拉拜,岳石炼.基于级联随机共振与APSO算法相结合的信号检测方法[J].激光杂志,2014, 35(4):11-14. RIZA H R, HAIBAI D L B, YUE Shi-lian. Signal detection method based on cascaded stochastic resonance combining with APSO algorithm[J]. Laser Journal, 2014, 35(4):11-14.
[11] MCNAMARA B, WIESENFIELD K, ROY R. Observation of stochastic resonance in a ring laser[J]. Physical Review Letters, 1988, 60(6):2626-2629.
[12] GAMMAITONI L, JUNG P, HÄNGGI P. Stochastic resonance[J]. Reviews of Modern Physics, 1998,70(1):223-287.
[13] 范剑,赵文礼,张明路,等.随机共振动力学机理及其微弱信号检测方法的研究[J].物理学报,2014, 63(11):110506-1-11. FAN Jian, ZHAO Wen-li, ZHANG Ming-lu, et al. Nonlinear dynamics of stochastic resonance and its application in the method of weak signal detection[J]. Acta Physica Sinica, 2014, 63(11):110506-1-11.
[14] 郝静,杜太行,江春冬,等.调参随机共振在超高频微弱信号检测中的应用[J].计算机应用,2016,36(9):2374-2380. HAO Jing, DU Tai-hang, JIANG Chun-dong, et al. Application of parameter-tuning stochastic resonance for detecting the weak signal with ultrahigh frequency[J]. Journal of Computer Applications, 2016, 36(9):2374-2380.
[15] 郝研,王太勇,万剑,等.基于级联双稳随机共振和多重分形的机械故障诊断方法研究[J].振动与冲击,2012,31(8):181-185. HAO Yan, WANG Tai-yong, WAN Jian, et al.Mechanical fault diagnosis based on cascaded bistable stochastic resonance and multi-fractal[J]. Journal of Vibration and Shock, 2012, 31(8):181-185.
[16] 张广丽,吕希路,康艳梅.α稳定噪声环境下过阻尼系统中的参数诱导随机共振现象[J].物理学报,2012,61(4):040501-1-8. ZHANG Guang-li, LV Xi-lu, KANG Yan-mei. Parameter-induced stochastic resonance in overdamped system with αstable noise[J]. Acta Physica Sinica, 2012, 61(4):040501-1-8.
[17] 冷永刚,赖志慧.基于Kramers逃逸速率的Duffing振子广义调参随机共振研究[J].物理学报,2014, 63(2):020502-1-9. LENG Yong-gang, LAI Zhi-hui. Generalized parameter adjusted stochastic resonance of Duffing oscillator based on Kramers rate[J]. Acta Physica Sinica, 2014, 63(2):020502-1-9.
[18] WANG J, REN X, ZHANG S, et al. Adaptive bistable stochastic resonance aided spectrum sensing[J]. IEEE Transactions on Wireless Communications, 2014, 13(7):4014-4024.
[19] LI Q, LI Z. A novel sequential spectrum sensing method in cognitive radio using suprathreshold stochastic resonance[J]. IEEE Transactions on Vehicular Technology, 2014, 63(4):1717-1725.
[20] LIN Y, HE C, JIANG L, et al.Cooperative spectrum sensing based on stochastic resonance in cognitive radio[J]. Science China Information Sciences, 2014, 57(2):1-10.
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