基于LabVIEW的微震实时监测系统
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摘要
针对锡铁山铅锌矿深部地压活动频繁的现状,提出了一种基于LabVIEW的微震实时监测系统的设计方案。该系统采用三分量检波器检测微震信号,通过前置放大电路、滤波电路、NI CRIO-9014嵌入式实时控制器与NI 9201采集模块将信号送入工控机及LabVIEW软件平台进行处理,从而实现微震实时监测及定位功能。实际应用表明,该系统的实时性和准确性满足设计要求,具有一定的可行性。
In view of present situation of frequent activities of deep ground pressure in Lead-zinc Mine of Xitieshan,the paper proposed a design scheme of real-time monitoring system for microseism based on LabVIEW.The system uses three-component geophone to detect microseism signal and transmit the signal to industrial computer and LabVIEW software platform to make process through preamplifier circuit,filtering circuit,NI CRIO-9014 and NI 9201,so as to realize real-time monitoring and location function for microseism.The actual application showed that real-time performance and accuracy of the system meet with design requirements and the system has certain feasibility.
In view of present situation of frequent activities of deep ground pressure in Lead-zinc Mine of Xitieshan,the paper proposed a design scheme of real-time monitoring system for microseism based on LabVIEW.The system uses three-component geophone to detect microseism signal and transmit the signal to industrial computer and LabVIEW software platform to make process through preamplifier circuit,filtering circuit,NI CRIO-9014 and NI 9201,so as to realize real-time monitoring and location function for microseism.The actual application showed that real-time performance and accuracy of the system meet with design requirements and the system has certain feasibility.
引文
[1]赵兴东,石长岩,刘建坡,等.红透山铜矿微震监测系统及其应用[J].东北大学学报:自然科学版,2008(3):97-100.
[2]JIANG Fuxing,LUO Xun,YANG Shuhua.Study onMicroseismic Monitoring for Spatial Structure ofOverlying Strata and Mining Pressure Field inLongwall Face[J].Chinese Journal of GeotechnicalEngineering,2003,25(1):23.
[3]DEIST F H,SALAMON M D G,GEORQIADIS E.ANew Digital Method for Three Dimensional StressAnalysis in Elastic Media[J].Rock Mechanics,1973,5(4):189-202.
[4]HEDLEY D G F,UDD J E.The Canada-Ontario-Industry Pockburst Project[J].Pure and AppliedGeophysics,1989,129(3-4):661-672.
[5]李冬辉,王斌.基于虚拟仪器的微震实时监测系统[J].电子技术应用,2006(11):87-90.
[6]陈军.微地震监测中传感器的布置方法[J].有色金属,2003,55(6):20-21,44.
[7]刘君华,贾惠芹,丁晖,等.虚拟仪器图形化编程语言LabVIEW教程[M].西安:西安电子科技大学出版社,2001.
[8]孔祥茜,吴继伟,岳继光.地震信号小波变换的去噪方法[J].计算机辅助工程,2005,14(3):52-56.
[9]邴绍丹,潘一山.矿山微震定位方法及应用研究[J].煤矿开采,2007,12(5):1-4.
[2]JIANG Fuxing,LUO Xun,YANG Shuhua.Study onMicroseismic Monitoring for Spatial Structure ofOverlying Strata and Mining Pressure Field inLongwall Face[J].Chinese Journal of GeotechnicalEngineering,2003,25(1):23.
[3]DEIST F H,SALAMON M D G,GEORQIADIS E.ANew Digital Method for Three Dimensional StressAnalysis in Elastic Media[J].Rock Mechanics,1973,5(4):189-202.
[4]HEDLEY D G F,UDD J E.The Canada-Ontario-Industry Pockburst Project[J].Pure and AppliedGeophysics,1989,129(3-4):661-672.
[5]李冬辉,王斌.基于虚拟仪器的微震实时监测系统[J].电子技术应用,2006(11):87-90.
[6]陈军.微地震监测中传感器的布置方法[J].有色金属,2003,55(6):20-21,44.
[7]刘君华,贾惠芹,丁晖,等.虚拟仪器图形化编程语言LabVIEW教程[M].西安:西安电子科技大学出版社,2001.
[8]孔祥茜,吴继伟,岳继光.地震信号小波变换的去噪方法[J].计算机辅助工程,2005,14(3):52-56.
[9]邴绍丹,潘一山.矿山微震定位方法及应用研究[J].煤矿开采,2007,12(5):1-4.
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