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先进道旁车辆状态监视系统的开发和应用 被引量:12

Development and Deployment of Advanced Wayside Condition Monitoring Systems
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摘要 在过去的 5年里 ,北美铁路协会 (AAR)的分支机构运输技术中心公司 (TTCI) ,一直在开发改进道旁状态监视系统 ,尤其是开发转向架曲线通过性能和车轴滚动轴承缺陷的监测系统。目前 ,这 2种检测系统正在进行应用测试。 In the past 5 years, the Transport Technology Center Incorporation(TTCI)--a subsidiary of the Association of American Railroads(AAR), has been developing and improved the wayside condition monitoring systems;specifically,for monitoring bogie(truck)curving performance and axle roller bearing defects.Both systems are currently being tested in service.
作者 FirdausiD.Irani 吴朝院
机构地区
出处 《国外铁道车辆》 2002年第2期39-43,45,共6页 Foreign Rolling Stock
关键词 道旁车辆状态监视系统 铁道车辆 监视系统 美国 rolling stock monitoring system U.S.A.
分类号 U270.7 [机械工程—车辆工程]
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参考文献6

  • 1Bilodeau,J.and Anderson, G.Feature Extraction for Advance Bearing Inspection Using Neural Network[J].Technology Digest,TD 97-047,Association of American Railroads,1997(12).
  • 2Anderson,G. Cline,J. and Smith,R. Acoustic Wayside Identification of Roller-Bearing Defects[J].Technology Digest,TD98-029,Association of American Railroads, 1998(12).
  • 3Swearingen,B.,Mazza,J.and Anderson,G. Preliminary Performance Evaluation of a Wayside Truck-Defect Detector[J].Technology Digest, TD98-027,Association of American Railroads, 1998(12).
  • 4Railroad Safety Statistics[R].Annual Report 1999, United States Department of Transportation/Federal Railroad Administration.
  • 5Guins,T.Economics of Improved-Suspension Trucks[J].Technology Digest,TD98-009,Association of American Railroads,1998(4).
  • 64th Annual Research Review,Proc[R].Association of American Railroads,1998.

同被引文献64

  • 1刘瑞扬.北美铁路车辆安全轨边检测系统的现状及思考[J].中国铁路,2004(7):57-60. 被引量:10
  • 2贾继德,孔凡让,王建平,刘维来,干方建,龙潜,陈剑,陈兴昭.基于瞬时频率估计的内燃机信号阶比分析[J].内燃机工程,2005,26(3):15-18. 被引量:13
  • 3徐虎.25K型客车车轮和轴承故障增多的原因分析及措施[J].铁道车辆,2006,44(1):35-37. 被引量:2
  • 4祁克玉,向家伟,訾艳阳,何正嘉.基于Laplace小波相关滤波的结构模态参数精确识别方法[J].机械工程学报,2007,43(9):167-172. 被引量:15
  • 5Choe C H, Wan Y, Chan A K. Neural pattern identification of railroad wheel-bearing faults from audible acoustic signals: comparison of FFT, CWT and DWT features [ J ]. SPIE Proceedings on Wavelet Applications, April, 1997, Vol. 3087, pp. 480 -496.
  • 6Stojanovic M, Catipovic J A, Proakis J G. Phase-coherent digital communications for underwater acoustic channels [ J ]. Oceanic Engineering, 1994, 19(1) : 100 - 111.
  • 7Johnson M, Freitag L, Stojanovic M. Improved Doppler tracking and correction for underwater acoustic communications [J]. IEEE International Conference on Acoustics, Speech, and Signal Processing, 1997, 1 : 575 -578.
  • 8Dybala J, A. Galezia, Maczak J. Verification of Doppler Effect removal method for the needs of pass-by railway condition monitoring system [ J ]. Diagnostyka, 2008, 4 (48) : 25 -30.
  • 9Dybata J, Radkowski S. Reduction of Doppler effect for the needs of wayside condition monitoring system of railway vehicles[J]. Mech. Syst. Signal Process, in press.
  • 10Morse P, Ingard K. Theoretical Acoustics [ M ]. Science Press, Beijing, 1986.

引证文献12

二级引证文献72

国外铁道车辆
2002年 第2期

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