Connolly, D. P.; Kouroussis, G.; Laghrouche, O.; Ho, C. & Forde, M. C. Benchmarking railway vibrations - track, vehicle, ground and building effects, Construction and Building Materials, 92, 64-81, (2015).
Kwasniewski, L., Li, H., Wekezer, J. and Malachowski, J. Finite element analysis of vehicle-bridge interaction, Finite Elements in Analysis and Design, 42 (11), 950-959, (2006).
Doménech, A., Martínez-Rodrigo, M. D., Romero, A. and Galvín, P. Soil-structure interaction effects on the resonant response of railway bridges under high-speed traffic, International Journal of Rail Transportation, 3 (4), 201-214, (2015).
Hino, J., Yoshimura, T., Konishi, K. and Ananthanarayana, N. A finite element method prediction of the vibration of a bridge subjected to a moving vehicle load, Journal of Sound and Vibration, 96 (1), 45-53, (1984).
Zhong, H., Yang, M. and Gao, Z. Dynamic responses of prestressed bridge and vehicle through bridge-vehicle interaction analysis, Engineering Structures, 87, 116-125, (2015).
Kim, C. W., Kawatani, M. and Kim, K. B. Three-dimensional dynamic analysis for bridge-vehicle interaction with roadway roughness, Computers & Structures, 83 (19-20), 1627-1645, (2005).
Kouroussis, G., Connolly, D. P. and Verlinden, O. Railway induced ground vibrations - a review of vehicle effects, International Journal of Rail Transportation, 2 (2), 69-110, (2014).
Dietz, S., Hippmann, G. and Schupp, G. Interaction of vehicles and flexible tracks by co-simulation of multibody vehicle systems and finite element track models, Vehicle System Dynamics, 37 (supplement), 372-384, (2002).
Samani, F. S. and Pellicano, F. Vibration reduction on beams subjected to moving loads using linear and nonlinear dynamic absorbers, Journal of Sound and Vibration, 325 (4-5), 742-754, (2009).
Samani, F. S., Pellicano, F. and Masoumi, A. Performances of nonlinear vibration absorbers for beams subjected to moving loads, Nonlinear Dynamics, 73 (1), 1065-1079, (2013).
Kouroussis, G. and Verlinden, O. Prediction of railway induced ground vibration through multibody and finite element modelling, Mechanical Sciences, 4 (1), 167-183, (2013).
Kouroussis, G., Rustin, C., Bombled, Q. and Verlinden, O. EasyDyn: multibody open-source framework for advanced research purposes, Proceedings of Multibody Dynamics 2011 - ECCOMAS Thematic Conference, Brussels, Belgium, 4-7 July, (2011).
Verlinden, O.; Ben Fekih, L. & Kouroussis, G. Symbolic generation of the kinematics of multibody systems in EasyDyn: from MuPAD to Xcas/Giac, Theoretical & Applied Mechanics Letters, 3 (1), 013012, (2013).
Kortiš, J. and Daniel, L'. The comparison between the results of the two-dimensional and three-dimensional models of vehicle bridge interaction, Procedia Engineering, 111, 425-430, (2015).
Hiller, M. Dynamics of multibody system with minimal coordinates, Proceedings of the NATO Advanced Study Institute - Computer-Aided Analysis of Rigid and Flexible Mechanical Systems, Tróia, Portugal, 27 June - 9 July, (1993).
Daniel, L'. and Kortiš, J. Moving load effect on bridges, Proceedings of CETRA 2014: Road and rail infrastructure III, 3rdinternational conference on road and rail infrastructure, Split, Croatia, 28-30 April, (2014).
Gim, G. Vehicle dynamic simulation with a comprehensive model for pneumatic tires, PhD thesis, University of Arizona, (1988).
Frýba, L. Vibration of solids and structures under moving loads (3rd edition), Thomas Tellford, London, (1999).