A Novel Approach of Identifying Railway Track Rail’s Modal Frequency From Wheel-Rail Excitation and Its Application in High-Speed Railway Monitoring

An, Bolun; Gao, Liang; Xin, Tao; Xiang, Guorong; Ji, Wang

doi:10.1109/access.2019.2959444

Cited by 10 publications

(4 citation statements)

References 44 publications

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“…Contact measurement is still widely used due to its convenience, in spite of its limited measurement range or relatively low accuracy. The non-contact measurement method that have two popular types: inertial reference method and chord-based method, needs to be mounted on a kind of car or train for automatic measurement [6][7].…”

Section: A Rail Corrugation Measurement Methodsmentioning

confidence: 99%

Vision-Based Position Deviation Measurement of Rail Corrugation Chord Measuring Points Under Bi-Linear Laser Assistance

Chen

et al. 2021

IEEE Access

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During the dynamic measurement of chord-based rail corrugation, with the interferences of curve rail and train snaking movement, it is hard to ensure that the measuring points on the rail surface can trace the railhead centerline well the whole time. This introduces the position deviations to the measurement system, and leads to the measurement results cannot reflect the true rail irregularity state. To solve the problem, a position deviation measurement method based on the assistance of bi-linear laser is proposed in this paper. First, by means of three verifications composed of color, dimension and position, the laser stripe regions on railhead are located from original image effectively. Then, by suppressing stripe highlight texture and modifying the traditional Steger algorithm with flexible-widths Gaussian template, we extract the laser stripe centerline accurately, and depict the railhead boundary fast. Last, by locating three chord-based measuring points and calculating the distances from them to the railhead centerline, we obtain the position deviations of each point. The efficiency and superiority of proposed method are verified by vast experiments. The results show that the accuracy of the position deviation of the chord-based measuring points is limited within 0.4mm. INDEX TERMS Bi-linear laser assistance; chord-based method; vision-based measurement; position deviation; rail corrugation.

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Section: A Rail Corrugation Measurement Methodsmentioning

confidence: 99%

Vision-Based Position Deviation Measurement of Rail Corrugation Chord Measuring Points Under Bi-Linear Laser Assistance

Chen

et al. 2021

IEEE Access

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“…Another application of Wigner-Ville transform for wheel-flat and rail surface defect identification is shown in [ 57 ]. The modal frequencies identification approaches are presented in the theoretical and experimental studies [ 58 , 59 ]. The approaches provide a solution for the identification of the operational modal frequency of track sleeper support based on the monitoring data.…”

Section: Spectral Analysis and Feature Extraction Using Wavelet Scatteringmentioning

confidence: 99%

Identification of Sleeper Support Conditions Using Mechanical Model Supported Data-Driven Approach

Sysyn

Przybyłowicz

Nabochenko

et al. 2021

Sensors

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The ballasted track superstructure is characterized by a relative quick deterioration of track geometry due to ballast settlements and the accumulation of sleeper voids. The track zones with the sleeper voids differ from the geometrical irregularities with increased dynamic loading, high vibration, and unfavorable ballast-bed and sleeper contact conditions. This causes the accelerated growth of the inhomogeneous settlements, resulting in maintenance-expensive local instabilities that influence transportation reliability and availability. The recent identification and evaluation of the sleeper support conditions using track-side and on-board monitoring methods can help planning prevention activities to avoid or delay the development of local instabilities such as ballast breakdown, white spots, subgrade defects, etc. The paper presents theoretical and experimental studies that are directed at the development of the methods for sleeper support identification. The distinctive features of the dynamic behavior in the void zone compared to the equivalent geometrical irregularity are identified by numeric simulation using a three-beam dynamic model, taking into account superstructure and rolling stock dynamic interaction. The spectral features in time domain in scalograms and scattergrams are analyzed. Additionally, the theoretical research enabled to determine the similarities and differences of the dynamic interaction from the viewpoint of track-side and on-board measurements. The method of experimental investigation is presented by multipoint track-side measurements of rail-dynamic displacements using high-speed video records and digital imaging correlation (DIC) methods. The method is used to collect the statistical information from different-extent voided zones and the corresponding reference zones without voids. The applied machine learning methods enable the exact recent void identification using the wavelet scattering feature extraction from track-side measurements. A case study of the method application for an on-board measurement shows the moderate results of the recent void identification as well as the potential ways of its improvement.

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“…During the operation of the vehicle, the pantograph and catenary are always in sliding contact, and there are friction and wear effects between them [3]. With the increase in the operation time, the track line will inevitably deteriorate [4,5], aggravate the vehicle vibration, and may make contributions to the wear of the pantograph strip, which will lead to a significant reduction in the service life and even the separation of the PC system [6], slowing down the train and affecting the safety.…”

Section: Introductionmentioning

confidence: 99%

Influence of Metro Track Irregularities on Pantograph Vibration and Its Interaction with Catenary

Wang

et al. 2022

Applied Sciences

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The problem of excessive wear of pantograph strips frequently occurs on China’s Z City Metro Line 1. After on-site investigation and analysis by the metro operating company, it was speculated that the problem was related to abnormal track irregularities. Therefore, taking Z City Metro Line 1 as the main research object, the measured track irregularity of the whole line was analyzed and compared with other typical track spectra, and a track-vehicle-pantograph-catenary coupling dynamics model was established to analyze the relationship between the pantograph-catenary dynamic characteristics and the track irregularity. The two frequency ranges of the track irregularity that have a significant impact on the pantograph-catenary contact were found. Finally, after numerical calculation and analysis, it is recommended to focus on the irregularities with the two wavelength ranges of 9~16m and 3~4m in the maintenance.

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A Novel Approach of Identifying Railway Track Rail’s Modal Frequency From Wheel-Rail Excitation and Its Application in High-Speed Railway Monitoring

Cited by 10 publications

References 44 publications

Vision-Based Position Deviation Measurement of Rail Corrugation Chord Measuring Points Under Bi-Linear Laser Assistance

Vision-Based Position Deviation Measurement of Rail Corrugation Chord Measuring Points Under Bi-Linear Laser Assistance

Identification of Sleeper Support Conditions Using Mechanical Model Supported Data-Driven Approach

Influence of Metro Track Irregularities on Pantograph Vibration and Its Interaction with Catenary

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