Maria Molodova scite author profile

This paper presents an automatic method for detecting railway surface defects called "squats" using axle box acceleration (ABA) measurements on trains. The method is based on a series of research results from our group in the field of railway engineering that includes numerical simulations, the design of the ABA prototype, real-life implementation, and extensive field tests. We enhance the ABA signal by identifying the characteristic squat frequencies, using improved instrumentation for making measurements, and using advanced signal processing. The automatic detection algorithm for squats is based on wavelet spectrum analysis and determines the squat locations. The method was validated on the Groningen-Assen track in The Netherlands and accurately detected moderate and severe squats with a hit rate of 100%, with no false alarms. The methodology is also sensitive to small rail surface defects and enables the detection of squats at their earliest stage. The hit rate for small rail surface defects was 78%.

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Axle box acceleration: Measurement and simulation for detection of short track defects

Molodova

Dollevoet³

2011

Wear

167

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Squat growth—Some observations and the validation of numerical predictions

Dollevoet²,

Molodova

et al. 2011

Wear

103

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Differential wear and plastic deformation as causes of squat at track local stiffness change combined with other track short defects

Li¹,

Zhao²,

Dollevoet³

et al. 2008

Vehicle System Dynamics

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Maria Molodova

An investigation into the causes of squats—Correlation analysis and numerical modeling

Automatic Detection of Squats in Railway Infrastructure

Axle box acceleration: Measurement and simulation for detection of short track defects

Squat growth—Some observations and the validation of numerical predictions

Differential wear and plastic deformation as causes of squat at track local stiffness change combined with other track short defects

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