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| A Universal Algorithm for Bias-Chord Offset Based on MCO and Its Characteristics Analyses |
| WEI Hui1,ZHU Hong-tao 1,WAN Jian2 |
| 1 .Nanchang University,Nanehang,Jiangxi 330031,China;2. China Railway Corporation,Beijing 100844,China |
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Abstract Research purposes:There are two methods for alignment and profile irregularities evaluation of HSR ballastless track,i. e. mid-chord offset(MCO) method and bias-chord offset differential method. MCO method has been applied in track survey field widely,but the application of bias-chord offset differential method was limited due to its dependence of absolute survey. From the mathematical model of two methods,this paper analyzed the geometric interpretations of two methods to provide the theoretical basis for HSR ballastless track irregularity evaluation.
Research conclusions:(1)On this basis,a universal algorithm for chord deflection offset was established which is based on short chord MCO data. The result of computer simulation has verified the accuracy of the universal algorithm.(2)By means of frequency characteristics and error characteristics analysis,this paper argued that:contrast with bias-chord offset differential method,MCO method has some characteristics in the same chord length,e. g. zero phase shifting, richness of irregularities information,location convenience and characterization of dynamic properties. Not only that,the MCO method is able to extract the information of long wave irregularities with extended algorithm.(3)The universal algorithm established in this paper should provide a new method for the measurement of chord deflection offset in HSR survey.
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Received: 13 May 2013
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[1]罗林,张格明,吴旺青,等.轮轨系统轨道平顺状态的控制 [M].北京:中国铁道出版社,2006
Luo Lin, Zhang Geming, Wu Wangqing, etc. Track Smoothness Control for Wheel/Track System[M]. Beijing:China Railway Publishing House,2006.
[2]TB 10621-2009,高速铁路设计规范[S].
TB 10621-2009,Code for Design of High Speed Railway[S].
[3]何华武.我国客运专线应大力发展无碴轨道[J].中国铁路,2005 (1):11-15.
He Huawu. Ballastless Track Shall be Developed in Great Efforts on Chinese Passenger Dedicated Lines [J].Chinese Railways , 2005 (1):11-15.
[4]TG/GW 115-2012,高速铁路无碎轨道线路维修规则(试行)[S].
TG/GW 115-2012,High Speed Railway Maintain Rules for Ballastless Track(for Trial Implementation) [S].
[5]TB 3147-2012,轨道检查仪[S].
TB 3147-2012,Inspecting Instrument for Static Geometry Parameter of Track[S].
[6]卢祖文.高速铁路轨道技术综述[J].铁道工程学报, 2007,(1):41-44
Lu Zuwen. Overall Comments on Track Technology of High-speed Railway[J].Journal of Railway Engineering Society, 2007(1):41-54.
[7]全顺喜,王平,陈嵘.无碎轨道高低和方向不平顺计算方法研究[J]铁道学报,2012(5):81-85.
Quan Shunxi, Wang Ping, Chen Rong. Study on Calculation Methods of Lateral and Vertical Profile Irregularity of Ballastless Track[J].Journal of the China Railway Society , 2012 ( 5 ) : 81-85.
[8]朱洪涛,魏晖,王志勇,等.轨检仪弦测法”以大推小”检查轨道轨向不平顺的理论研究[J]铁道学报,2007 ( 1) : 36-40.
Zhu Hongtao, Wei Hui, Wang Zhiyong, etc. Discussion on Inspection of Track Alignment Irregularities according to Method of Chord Measuring and Its′Using Small Fetch Big′[J].Journal of the China Railway Society,2007(1):36-40.
[9]JJF 1059-1999,测量不确定度评定与表示[S].
JJF1059-1999,Evaluation and Expression of Uncertainty in Measurement[ S ].
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2013, Vol. 30 
