Experimental study on ground vibration attenuation induced by heavy freight wagons on a railway viaduct

Hu, Jinqiu; Luo, Yi; Zhuang, Ke; Liu, Penghui; Xu, Jinli

doi:10.1177/1461348418765949

Cited by 13 publications

(4 citation statements)

References 34 publications

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“…A simple method summarizing the ground vibrations measured by DAS is presented referring to the single degree of free system (the motion equation) of the drill in the percussive system propelled into rocky ground [29]. Based on three aspects, firstly, the most ground vibrations are caused by sudden loading; secondly, the ground is not elastic, and the soil damping coefficient is less than 1 [30][31][32][33]; thirdly, DAS measures vibration signals in a single direction. The vibration has two-stage displacements when the source of the vibration acts on the ground.…”

Section: Simulated Data Streammentioning

confidence: 99%

Signal Activity Detection for Fiber Optic Distributed Acoustic Sensing with Adaptive-Calculated Threshold

Cao

et al. 2022

Sensors

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The key point on analyzing the data stream measured by fiber optic distributed acoustic sensing (DAS) is signal activity detection separating measured signals from environmental noise. The inability to calculate the threshold for signal activity detection accurately and efficiently without affecting the measured signals is a bottleneck problem for current methods. In this article, a novel signal activity detection method with the adaptive-calculated threshold is proposed to solve the problem. With the analysis of the time-varying random noise’s statistical commonality and the short-term energy (STE) of real-time data stream, the top range of the total STE distribution of the noise is found accurately for real-time data stream’s ascending STE, thus the adaptive dividing level of signals and noise is obtained as the threshold. Experiments are implemented with simulated database and urban field database with complex noise. The average detection accuracies of the two databases are 97.34% and 90.94% only consuming 0.0057 s for a data stream of 10 s, which demonstrates the proposed method is accurate and high efficiency for signal activity detection.

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Section: Simulated Data Streammentioning

confidence: 99%

Signal Activity Detection for Fiber Optic Distributed Acoustic Sensing with Adaptive-Calculated Threshold

Cao

et al. 2022

Sensors

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“…Train-induced vibration and structure-borne noise radiating from the bridge can be treated as a steady process during the train’s passage, and bridge noise can be calculated in the frequency domain. 26,27 An acoustic transfer vector (ATV)-based method can be used to predict bridge noise, as follows 28 where boldPb(ω) is the sound pressure spectra emitted from the bridge; ATV(ω) is the transfer function between the sound pressure at selected field points and the surface velocity with a unit normal velocity applied on the element surface; boldVb(ω) is the surface velocity vector; T is the matrix transpose operation and boldω is the angular frequency vector.…”

Section: Inverse Bem Proceduresmentioning

confidence: 99%

Reconstruction of low-frequency bridge noise using an inverse modal acoustic transfer vector method

Song

2018

Journal of Low Frequency Noise, Vibration and Active Control

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Low-frequency noise emitted by elevated viaducts in light rail transit lines has considerable adverse effects on inhabitants living nearby. Reliable prediction of the acoustic field radiating from the viaduct using forward numerical models is challenging because the model parameters that influence viaduct vibration are difficult to obtain. To avoid directly quantifying these parameters, such as wheel–rail combined roughness, an inverse method is presented to reconstruct the acoustic field using modal acoustic transfer vectors and the sound pressures at a small number of measurement points. First, a forward numerical method based on the train–track–bridge interaction analysis is performed to predict the structure-borne noise of a concrete box girder viaduct. Then, the calculated sound pressures are treated as virtual measurement results to illustrate the inverse method procedure. Both QR decomposition and singular value decomposition with Tikhonov regularisation are used in the inverse analysis. Third, the proposed inverse method is validated by comparing the sound pressure levels computed using the inverse method with the results simulated using the forward prediction method. Finally, the reliability of the inverse procedure is further validated through field tests of two U-shaped girder viaducts.

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“…Despite the widespread use of numerical methods in recent studies, field test analysis is still essential to give direct evidence to validate various prediction models. Meanwhile, research is being carried out to reduce vibration caused by railways (Hu et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Empirical Model of Ground-Borne Vibration Induced by Commuter Railway Traffic

Lazi¹,

Adnan²,

Sulaiman³

2021

JST

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Train-induced ground-borne vibration has a negative effect on residential areas near railway tracks. Residents who are regularly exposed to ground-borne vibration can experience sleep disturbances and more serious health problems in the long run. In addition, it concerns the mental health of those who live nearby. Residents’ productivity and quality of life can be harmed as a result of direct exposure to train-induced ground-borne vibration. The relevant authorities must record a few precise measurements using technically sophisticated instruments and equipment to research further the impact of ground-borne vibrations induced by train traffic. However, the equipment is usually costly, and it has become one of the main stumbling blocks to achieving the desired results. This paper aimed to propose an alternative to the authority’s current guidelines and standards for vibration limits and environmental control. This research established a regression prediction model to forecast the peak particle velocity of commuter train ground-borne vibration. The established model considered a few parameters obtained from site surveys with limited or no tools at all. The data collected was measured along the ground rail tracks involving human-operated trains. Residents living in landed residential areas near railway tracks were selected as the recipients. Finally, the peak particle velocity models were established, validated, and a sensitivity analysis was carried out.

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Experimental study on ground vibration attenuation induced by heavy freight wagons on a railway viaduct

Cited by 13 publications

References 34 publications

Signal Activity Detection for Fiber Optic Distributed Acoustic Sensing with Adaptive-Calculated Threshold

Signal Activity Detection for Fiber Optic Distributed Acoustic Sensing with Adaptive-Calculated Threshold

Reconstruction of low-frequency bridge noise using an inverse modal acoustic transfer vector method

Empirical Model of Ground-Borne Vibration Induced by Commuter Railway Traffic

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