Real-Time Measurement Of Track Irregularities Using An Instrumented Axle And Kalman Filtering Techniques

IF 1.9 4区 工程技术 Q3 ENGINEERING, MECHANICAL
S. Muñoz, P. Urda, Xinxi Yu, A. Mikkola, J. Escalona
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引用次数: 0

Abstract

A model-based methodology for the estimation of both lateral and vertical track irregularities is presented. This methodology, based on Kalman filter techniques, was developed for an independent and compact measuring system comprising an instrumented axle equipped with a limited set of low-cost sensors: a 3D gyroscope, a Linear Variable Differential Transformer (LVDT) distance sensor and an encoder. The instrumented axle can be used on any railway vehicle travelling at moderate forward speed to provide measurements in real-time. The proposed methodology, combined with the instrumented axle, enables precise and prompt measurement of track irregularities. An experimental campaign carried out on a 1:10 scale track facility at the University of Seville validated both the system and the methodology. In the testing, 80 meters of scaled track was measured at an operational speed of V = 0.65 m/s in just two minutes. Simulation estimates for track irregularities compared against the measured data from the testing showed a good performance of the proposed methodology, with maximum errors of 0.45 mm in the short wavelength range D1, the range most influential to vehicle dynamic behavior.
利用仪表轴和卡尔曼滤波技术实时测量轨道不平整度
提出了一种基于模型的方法来估计横向和垂直轨道的不规则性。这种基于卡尔曼滤波技术的方法是为一个独立而紧凑的测量系统开发的,该系统包括一个仪表轴,配备一组有限的低成本传感器:一个3D陀螺仪,一个线性可变差动变压器(LVDT)距离传感器和一个编码器。仪表轴可用于任何轨道车辆在中等前进速度提供实时测量。所提出的方法,与仪表轴相结合,能够精确和迅速地测量轨道不规则性。在塞维利亚大学1:10比例的轨道设施上进行的一项实验活动验证了该系统和方法。在测试中,以V = 0.65 m/s的运行速度在短短两分钟内测量了80米的缩放轨道。仿真估计的轨道不规则性与测试的测量数据进行了比较,结果表明所提出的方法具有良好的性能,在对车辆动态行为影响最大的短波长范围D1内,最大误差为0.45 mm。
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来源期刊
CiteScore
4.00
自引率
10.00%
发文量
72
审稿时长
6-12 weeks
期刊介绍: The purpose of the Journal of Computational and Nonlinear Dynamics is to provide a medium for rapid dissemination of original research results in theoretical as well as applied computational and nonlinear dynamics. The journal serves as a forum for the exchange of new ideas and applications in computational, rigid and flexible multi-body system dynamics and all aspects (analytical, numerical, and experimental) of dynamics associated with nonlinear systems. The broad scope of the journal encompasses all computational and nonlinear problems occurring in aeronautical, biological, electrical, mechanical, physical, and structural systems.
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