Olivier Verlinden scite author profile

This paper is a review of the effect of vehicle characteristics on ground-and track borne-vibrations from railways. It combines traditional theory with modern thinking and uses a range of numerical analysis and experimental results to provide a broad analysis of the subject area. First, the effect of different train types on vibration propagation is investigated. Then, despite not being the focus of this work, numerical approaches to vibration propagation modelling within the track and soil are briefly touched upon. Next an in-depth discussion is presented related to the evolution of numerical models, with analysis of the suitability of various modelling approaches for analysing vehicle effects. The differences between quasi-static and dynamic characteristics are also discussed with insights into defects such as wheel/rail irregularities. Additionally, as an appendix, a modest database of train types are presented along with detailed information related to their physical attributes. It is hoped that this information may provide assistance to future researchers attempting to simulate railway vehicle vibrations. It is concluded that train type and the contact conditions at the wheel/rail interface can be influential in the generation of vibration. Therefore, where possible, when using numerical approach, the vehicle should be modelled in detail. Additionally, it was found that there are a wide variety of modelling approaches capable of simulating train types effects. If non-linear behaviour needs to be included in the model, then time domain simulations are preferable, however if the system can be assumed linear then frequency domain simulations are suitable due to their reduced computational demand.

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Review of control algorithms for robotic ankle systems in lower-limb orthoses, prostheses, and exoskeletons

Jiménez‐Fabián¹,

Verlinden²

2012

Medical Engineering & Physics

282

137

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Free field vibrations caused by high-speed lines: Measurement and time domain simulation

Kouroussis

Verlinden

Conti

2011

Soil Dynamics and Earthquake Engineering

126

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Review of Trackside Monitoring Solutions: From Strain Gages to Optical Fibre Sensors

Kouroussis

Caucheteur

Kinet

et al. 2015

Sensors

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A review of recent research on structural monitoring in railway industry is proposed in this paper, with a special focus on stress-based solutions. After a brief analysis of the mechanical behaviour of ballasted railway tracks, an overview of the most common monitoring techniques is presented. A special attention is paid on strain gages and accelerometers for which the accurate mounting position on the track is requisite. These types of solution are then compared to another modern approach based on the use of optical fibres. Besides, an in-depth discussion is made on the evolution of numerical models that investigate the interaction between railway vehicles and tracks. These models are used to validate experimental devices and to predict the best location(s) of the sensors. It is hoped that this review article will stimulate further research activities in this continuously expanding field.

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Field testing and analysis of high speed rail vibrations

Connolly

Kouroussis

Woodward

et al. 2014

Soil Dynamics and Earthquake Engineering

147

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