Random analysis of train-bridge coupled system under non-uniform ground motion

Abstract: The increasing prevalence of simply supported bridges in high-speed railway (HSR) lines has raised concerns about the safety of trains crossing these bridges during an earthquake. As these bridges are typically continuous and long, it is essential to consider the effects of traveling seismic waves on the random vibration of the train-bridge coupled (TBC) system. To address this issue, the new point estimate method (NPEM) is used to analyze the dynamic response and parametric sensitivity of a three-dimensional … Show more

“…In reality, when trains pass over bridges, there are irregularities in the running surface of the steel rails, which can be divided into four types: high and low irregularities, track orientation irregularities, horizontal irregularities, and gauge irregularities [34]. In this paper, the low interference rail irregularity power spectral density (PSD) of Germany is used to describe the rail irregularity state of high-speed railways [29,35].…”

Influence of Variable Height of Piers on the Dynamic Characteristics of High-Speed Train–Track–Bridge Coupled Systems in Mountainous Areas

“…In reality, when trains pass over bridges, there are irregularities in the running surface of the steel rails, which can be divided into four types: high and low irregularities, track orientation irregularities, horizontal irregularities, and gauge irregularities [34]. In this paper, the low interference rail irregularity power spectral density (PSD) of Germany is used to describe the rail irregularity state of high-speed railways [29,35].…”

Influence of Variable Height of Piers on the Dynamic Characteristics of High-Speed Train–Track–Bridge Coupled Systems in Mountainous Areas

Seismic safety assessment with non-Gaussian random processes for train-bridge coupled systems

High-speed railway seismic response prediction using CNN-LSTM hybrid neural network