A machine learning based approach for efficient safety evaluation of the high speed train and short span bridge system

Li, Huile; Gang, Wu; Cui, Mida

doi:10.1590/1679-78256238

Cited by 1 publication

(1 citation statement)

References 39 publications

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“…As a general approximator, ANN has been used to solve problems related to the train–track–bridge system (Zhang et al, 2023). Li et al (2020) used BP-ANN to fit the relationship between random features and maximum bridge displacements in train–bridge systems. With BP-ANN and Monte Carlo methods, Yan et al (2019) investigated the fatigue failure of bridges under vehicular overloading.…”

Section: Introductionmentioning

confidence: 99%

An efficient method for predicting wheel-rail forces in coupled nonlinear train-track-bridge system using artificial neural networks

Zhang

Wang

Han

et al. 2023

Advances in Structural Engineering

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Wheel-rail forces are an essential indicator for vehicle safety evaluation. The calculation of wheel-rail forces for the coupled nonlinear train-track-bridge system using the direct numerical integration method is time-consuming, hindering the timely safety and reliability assessment of train operations. In this paper, an efficient method based on the nonlinear autoregressive with exogenous input artificial neural network (NARX-ANN) was proposed to predict the nonlinear wheel-rail force of trains on bridges caused by track irregularity. Firstly, samples of track irregularity time history were randomly generated using the stochastic harmonic function method. The vertical and lateral wheel-rail forces of the coupled nonlinear train-track-bridge system were calculated by numerical integration. Secondly, the NARX-ANN model was established and trained with a small number of randomly selected wheel-rail force samples. Finally, the wheel-rail forces obtained by numerical integration were regarded as the ground truth to verify the prediction accuracy of the NARX-ANN model. The influence of training configuration, initial output, and the number of time delays on prediction accuracy was systematically analyzed. The results showed that the NARX-ANN model could accurately predict the time history of wheel-rail forces. In addition, its computational efficiency is 19.35 times higher than that of the numerical integration method. It is hoped that this study can guide the stochastic analysis of the train–track–bridge system.

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Section: Introductionmentioning

confidence: 99%