随机共振瓦斯微弱信号检测方法研究

付华; 代巍

doi:10.7510/jgjs.issn.1001-3806.2016.02.013

随机共振瓦斯微弱信号检测方法研究

付华¹,
代巍^2,3

1.
辽宁工程技术大学电气与控制工程学院, 葫芦岛 125105;
2.
辽宁工程技术大学安全科学与工程学院, 阜新 123000;
3.
辽宁工程技术大学研究生院, 阜新 123000

作者简介: 付华(1962-),女,教授,现主要从事计算机测控技术及应用、煤矿瓦斯智能监测、现代传感技术及系统的研究。E-mail:fuhua_hld@126.com.

基金项目:
国家自然科学基金资助项目(51274118)
中图分类号: TN247

Study on stochastic resonance gas weak signal detection

FU Hua¹,
DAI Wei^2,3

1.
Faculty of Electrical and Control Engineering, Liaoning Technical University, Huludao 125105, China;
2.
College of Safety Science and Engineering, Liaoning Technical University, Fuxin 123000, China;
3.
Graduate School, Liaoning Technical University, Fuxin 123000, China
CLC number: TN247

摘要: 为了解决检测煤矿复杂环境中的瓦斯信号时易受周围噪声干扰以至微弱信号被掩埋或产生异常数据的问题,提出一种基于随机共振的微弱瓦斯信号检测方法。采用欠采样原理对大频率信号尺度变换及粒子群算法优化系统结构参量,对大参量微弱信号在随机共振系统中的共振效果进行了理论分析和研究。结果表明,该方法可以以较低的采样频率,自适应地达到较好的共振效果;可有效地滤除噪声并增强系统辨识微弱信号的灵敏度以及信号检测的动态范围。该研究为瓦斯突出信息的早期辨识提供了一定的理论依据。
- 测量与计量 /
- 瓦斯信号 /
- 随机共振 /
- 粒子群算法 /
- 大参量
Abstract: In order to detect the gas signals in complex environments of coal mine and solve the problem of the buried weal signal and the abnormal data because of surrounding noise interference on gas signal, a detection method for weak gas signal was introduced based on stochastic resonance. Sub-sampling method was used to transform large frequency signal scale and particle swarm optimization algorithm was used to optimize structural parameters. The resonance effect of large-parameter weak signal in a stochastic resonance system was analyzed. The results show that optimum matching between the nonlinear system, the input signal and the noise could be achieved adaptively with lower sampling frequency. The large-parameter multi-frequency weak signal can be distinguished from strong background noise effectively, and the detection sensitivity and dynamic range are enhanced. The research provides theory basic for early identification of gas outburst information.
- measurement and metrology /
- gas signal /
- stochastic resonance /
- particle swarm optimization /
- large parameter

[1]	FU H, XIE S, XU Y S. Study on MPSO-WLS-SVM-based mine gas emission prediction model[J]. China Safety Science Journal, 2013, 23(5):56-61(in Chinese).
[2]	FU H, JIANG W, SHAN X X. Study on coupling algorithm on coal mine gas emission forecast model[J]. Journal of China Coal Society, 2012, 37(4):654-658(in Chinese).
[3]	DENG M, ZHANG G Sh, CHEN Q H. Forecast of coal and gas outburst based on time series of gas concentration[J]. Journal of China Coal Society, 2010, 35(2):260-263(in Chinese).
[4]	DONG D W, LIU J, WANG H G. An adaptive method for predicting coal mine gas concentration and its application pre-warning[J]. China Safety Science Journal, 2013, 23(5):88-93(in Chinese).
[5]	LEI Y G, HAN D, LIN J, et al. New adaptive stochastic resonance method and its application to fault diagnosis[J]. Journal of Mechanical Engineering, 2012, 48(7):62-67(in Chinese).
[6]	HAN D Y, DING X J, SHI P M. Multi-frequency weak signal detection based on EMD after de-noising by adaptive re-scaling frequency-shifted band-pass stochastic resonance[J]. Journal of Mechanical Engineering, 2013, 49(8):10-18(in Chinese).
[7]	FAUVE S, HESLOT F. Stochastic resonance in a bistable system[J]. Physics Letters, 1983, A97(1):5-7.
[8]	ZHU G Q, DING K, ZHANG Y, et al. Experimental research of weak signal detection based on the stochastic resonance of nonlinear system[J]. Acta Physica Sinica, 2010, 59(5):3001-3006(in Chin-ese).
[9]	LENG Y G, WANG T Y. Numerical research of twice sampling stochastic resonance for the detection of a weak signal submerged in a heavy noise[J]. Acta Physica Sinica, 2003, 52(10):2432-2437(in Chinese).
[10]	HU J X, ZENG J Ch. Selection on inertia weight of particle swarm optimization[J]. Computer Engineering, 2007, 33(11):193-195(in Chinese).
[11]	YANG D X, HU Zh, YANG Y M. The analysis of stochastic resonance of periodic signal with large parameters[J]. Acta Physica Sinica, 2012, 61(8):1-10(in Chinese).
[12]	LIANG Zh J, WANG K F, GU G Q, et al. Digital speckle image correlation method base of particle swarm optimization algorithm[J]. Laser Technology, 2014, 38(5):603-607(in Chinese).
[13]	LI R Q, SHI Sh L, NIAN Q F, et al. Research on pattern recognition of gas explosion disaster risk in coal mines based on PSO-SVM[J]. China Safety Science Journal, 2013, 23(5):38-43(in Chinese).
[14]	WAGDY M F, LUCAS M S P.A phase-measurement offset compensation technique suitable for automation[J]. IEEE Transaction on Instrumentation and Measurement, 1987, 36(3):721-724.
[15]	OSTRANDER L E, PALOSKI W H, BARIE P S, et al. A computer algorithm to calculate P50 from a single blood sample[J]. IEEE Transactions on Biomedical Engineering, 1983, 30(4):250-254.
[16]	YANG Sh L, SU Y B, HE J T, et al. Study of measurement accuracy of position sensitive detectors[J]. Laser Technology, 2014, 38(6):830-834(in Chinese).
[17]	NICOLI J A G. Multi-periodical phase meter:US, 4157500[P].1979-07-05.
[18]	FERNANDEZ-MARTINEZ J L, GARCIA-GONZALO E. Stochastic stability analysis of the linear continuous and discrete PSO models[J]. IEEE Transactions on Evolutionary Computation, 2010, 15(3):405-423.
[19]	SHI Y, JU A S, LE Y F. Heterodyne interference signal processing method based on FPGA[J]. Laser Technology, 2012, 36(2):221-224(in Chinese).

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随机共振瓦斯微弱信号检测方法研究

作者简介: 付华(1962-),女,教授,现主要从事计算机测控技术及应用、煤矿瓦斯智能监测、现代传感技术及系统的研究。E-mail:fuhua_hld@126.com.

Study on stochastic resonance gas weak signal detection

计量

随机共振瓦斯微弱信号检测方法研究

作者简介: 付华(1962-),女,教授,现主要从事计算机测控技术及应用、煤矿瓦斯智能监测、现代传感技术及系统的研究。E-mail:fuhua_hld@126.com

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Study on stochastic resonance gas weak signal detection

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随机共振瓦斯微弱信号检测方法研究

作者简介: 付华(1962-),女,教授,现主要从事计算机测控技术及应用、煤矿瓦斯智能监测、现代传感技术及系统的研究。E-mail:fuhua_hld@126.com.

Study on stochastic resonance gas weak signal detection

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随机共振瓦斯微弱信号检测方法研究

作者简介: 付华(1962-),女,教授,现主要从事计算机测控技术及应用、煤矿瓦斯智能监测、现代传感技术及系统的研究。E-mail:fuhua_hld@126.com

English Abstract

Study on stochastic resonance gas weak signal detection

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