显示器智能检测系统的设计与实现
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摘要
自上个世纪以来,我国海陆空三军的各种武器装备上配备了大量的军用CRT显示器、LCD显示器以及各类终端等显示设备。这些设备由于使用环境恶劣、设备老化等原因经常出现各类故障。为帮助军用显示器设备使用方快速定位故障,应急维修,提高军队工作效率,本文在研究了智能检测原理及各类显示器工作原理的基础上,结合故障树分析法,设计并实现了一套显示器智能检测系统。
本文讨论了故障树分析法和显示器工作原理,在此基础上给出了显示器智能检测系统的软硬件设计思想。系统硬件部分主要包括:显示模块、激励信号源、视频信号采集模块、电路信号采集模块等,利用激励信号源和视频信号采集模块分别产生和采集VGA、DVI、PAL等制式的视频信号来初步确定故障范围;系统软件部分主要包括:视频信号采集、发生模块的嵌入式软件以及智能检测软件等,在初步确定故障范围后利用智能检测软件进行故障检测。
智能检测方面,首先对显示器各种故障用故障树分析法进行建模,然后通过选择故障现象得到故障可能发生的模块以及检测流程,最后依据检测流程依次获取这些模块内各检测点的电路参数,根据检测点电路参数的异常来确定故障的位置。
该显示器智能检测系统通过对故障显示器的实际检测,验证了设计方法正确可行,检测结果令人满意,该系统已在相关部队推广使用。
Since the last century, China's armed forces equipped with various weapons and equipments on a large number of military CRT monitors, LCD displays and various types of terminals and other display devices. Because of the equipments were used in poor environment, and its aging problem, it is often failure. In order to help the military display device side locating faults quickly as to improve the efficiency of the armed forces, this paper researched many intelligent detection principles and combined with fault tree analysis, designed and implemented an intelligent display detection system.
Firstly, paper analysised principle of the fault tree analysis and the display how to working, then putted forward the intelligent detection system's designation and implementation principle. The hardware includes display module, excitation sources, video signal acquisition module and signal acquisition module, and user can use excitation and video signal acquisition module to generate or captrue the video signals, such as VGA,DVI,PAL etc as to locate fault initially. The software includes video acquisition, video signal generation and intelligent detection. After locating the scope of fault, intelligent detection are used to analysis fault tree of the military display through qualitative analysis.
In intelligent detection aspect, using display faults to bulid model through fault tree analysis, and then get the flow of detection, which play the guidance role, and user can capture the parameters of the current or voltage in the detection point, if the parameters are abnormal, we can locate the fault Finally.
Paper verified the design methods of the system is correct and feasible,through actual detect the monitors, and the detection results are satisfactory, and the system is being used in some forces.
本文讨论了故障树分析法和显示器工作原理,在此基础上给出了显示器智能检测系统的软硬件设计思想。系统硬件部分主要包括:显示模块、激励信号源、视频信号采集模块、电路信号采集模块等,利用激励信号源和视频信号采集模块分别产生和采集VGA、DVI、PAL等制式的视频信号来初步确定故障范围;系统软件部分主要包括:视频信号采集、发生模块的嵌入式软件以及智能检测软件等,在初步确定故障范围后利用智能检测软件进行故障检测。
智能检测方面,首先对显示器各种故障用故障树分析法进行建模,然后通过选择故障现象得到故障可能发生的模块以及检测流程,最后依据检测流程依次获取这些模块内各检测点的电路参数,根据检测点电路参数的异常来确定故障的位置。
该显示器智能检测系统通过对故障显示器的实际检测,验证了设计方法正确可行,检测结果令人满意,该系统已在相关部队推广使用。
Since the last century, China's armed forces equipped with various weapons and equipments on a large number of military CRT monitors, LCD displays and various types of terminals and other display devices. Because of the equipments were used in poor environment, and its aging problem, it is often failure. In order to help the military display device side locating faults quickly as to improve the efficiency of the armed forces, this paper researched many intelligent detection principles and combined with fault tree analysis, designed and implemented an intelligent display detection system.
Firstly, paper analysised principle of the fault tree analysis and the display how to working, then putted forward the intelligent detection system's designation and implementation principle. The hardware includes display module, excitation sources, video signal acquisition module and signal acquisition module, and user can use excitation and video signal acquisition module to generate or captrue the video signals, such as VGA,DVI,PAL etc as to locate fault initially. The software includes video acquisition, video signal generation and intelligent detection. After locating the scope of fault, intelligent detection are used to analysis fault tree of the military display through qualitative analysis.
In intelligent detection aspect, using display faults to bulid model through fault tree analysis, and then get the flow of detection, which play the guidance role, and user can capture the parameters of the current or voltage in the detection point, if the parameters are abnormal, we can locate the fault Finally.
Paper verified the design methods of the system is correct and feasible,through actual detect the monitors, and the detection results are satisfactory, and the system is being used in some forces.
引文
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[2]胡柏青,李安,高启孝.基于PXI总线的惯导远程故障诊断系统.声学与电子工程,2002,8(3):31-34
[3]杨德刚,李安,胡柏青等.惯性导航设备维修决策控制方法的研究.中国惯性技术学报,2003,11(4):62-65
[4]廉小亲.故障诊断技术研究[硕士学位论文].北京:北京理工大学机械工程系,2005
[5]吴今培.智能故障诊断与专家系统.北京:科学出版社,1999:224-226
[6]杨叔子.基于知识的故障诊断技术.北京:清华大学出版社,1993:79-81
[7]鄂加强.智能故障诊断系统.长沙:湖南大学出版社,2006:122-124
[8]王飚舵.基于专家系统和神经网络的机车电路故障诊断系统研究.北方交通大学学报,2006,20(4):469-501
[9]谢涛,何怡刚,阳辉等.一种新的模拟电路故障诊断小波神经网络方法.桂林工业电子学院学报,2006.26(3):166-169
[10]廖丽娟,武立根.基于神经网络的电机智能检测系统.山西电子技术,2005.4:16-17
[11]陈晓娟,王树勋,戴逸松.一种基于神经网络的模拟电路故障诊断方法.电讯技术,2004(3):43-46
[12]金星,洪延娥.基于故障树的智能型故辩诊断系统.宇航学报,2001,22(3):111-113
[13]朱大奇,于赫林.基于故障树最小割集的故障诊断方法研究.数据采熊与处理,2002,17(3):341-344
[14]余浩章等.基于故障树的徽障诊断推理新方法.上海海运学院学报,2001,22(3):65-67
[15]朱继渊.故障树原理和应用.西安:西安交通大学出版社,2003
[16]邱杏飞.低压断路器智能控制器的研制.浙江大学,2005
[17]杨晓军.断路器机械特性检测装置设计[硕士学位论文].天津,天津大学,2006
[18]LU B J.U X B.Design of the knowledge base and inferenceengine of a fauh diagnosis expert system.Application Research of Computations,2006,23(1): 492-493
[19]GIARRATANO.Expert systems principles and programming.Beijing:China Machine Press,2002:233-243
[20]Pham D T, An integrated neural network and expert system tool for statistical process control Proc InstnMechEngrs,1995,209:91-97
[21]彭卫韶,李力争,胡燕瑜.模拟电路故障信号的小波预处理.中南大学学报,2008.39(3):584-589
[22]辛秀华,杨宣访,卜乐平.现代模拟电路故障诊断方法综述.自动化与仪器仪表,2005,118(2):1-5
[23]王永传等.基于模糊数的故障树分析方法研究.电子产品可靠性与环境试验.2000,1(6):10-15
[24]赵艳萍,贡文伟.模糊故障树分析及其应用研究.中国安全科学学报,2001,11(6):31-35
[25]金升福,曾庆军,黄巧亮.万能式断路器智能控制器研究.华东船舶工业学院学报,2003,5:75-79
[26]李敬,赵毅军.低压断路器特性试验装置设计[硕士学位论文].天津,河北工业大学,2001
[27]石建国.万能式断路器电流脱扣特性的自动检测.江苏电器,2005,2(3):33-35
[28]李云飞,姜晓峰.智能断路器在线测试系统.计算机工程,2003,29(21):174-176
[29]Yang, Jr-ming, A market stabilization mechanism; Circuit breaker.Theory and abidance, Dissertation Abstracts International, Ph.D 2003, University of Cincinnati
[30]J.Polimac and V.Polimac, Maintenance scheduling according to reliability targets and actual equipment performance, IEEE Conf.Pub.2001,3-13
[31]John W McBride, Kesom Pechrach, Paul M Weaver.Arc motion and gas flow in circuit limiting circuit breakers operating with a low contact switching velocity.IEEE Trans Comp and Pack.Tech.,2002,25(3):427-433
[32]易继谐,侯媛彬.智能控制技术.北京:北京工业大学出版社,1999,9:1-34
[33]顾德均.航空电子装备修理理论与技术.北京:国防工业出版社,2001:213-215
[34]O'Donnell Pat, Braun W F, Heising C R, et al. Survey Results of low-voltage circuit-breakers as found during maintenance testing:Working group report.IEEE Transaction on industry applications,1997,33(5):1367-1369
[35]胡昌华,许化龙.控制系统故障诊断与容错控制的分析和设计.北京:国防工业出版社,2000
[36]张雪江.机械设备故障诊断系统知识自动获取及更新的研究[博士学位论文].南京:东南大学,1997:30-35
[37]谢振伟.基于规则的特装车辆故障诊断专家系统的研究[硕士学位论文].哈尔滨工程大学,2006
[38]陈炜,吴志良.故障诊断专家系统结合故障树技术的结构研究.航海技术,2005
[39]王江萍.机械设备故障诊断技术及应用.西安:西北工业大学出版社,2001(5):2-6
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