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• International Organization for Standardization. ISO 2631-1: Mechanical vibration and shock - Evaluation of human exposure to whole-body vibration - Part 1: General requirements, 1997.
• International Organization for Standardization. ISO 2631-2: Mechanical vibration and shock - Evaluation of human exposure to whole-body vibration - Part 2: Vibration in buildings (1 Hz to 80Hz), 2003.
• U. S. Department of Transportation (Federal Railroad Administration). High-speed ground transportation. Noise and vibration impact assessment. Technical Report 293630-1, Office of Railroad Development Washington, 1998.
• Deutsches Institut für Normung. DIN 4150-2: Structural vibrations - Part 2: Human exposure to vibration in buildings, 1999.
• Deutsches Institut für Normung. DIN 4150-3: Structural vibrations - Part 3: Effects of vibration on structures, 1999.
• Schweizerische Normen-Vereinigung. SN-640312a: Les ébranlements - Effet des ébranlements sur les constructions (Swiss Standard on vibration effects on buildings), 1992.
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• M. J. Griffin. A comparison of standardized methods for predicting the hazards of whole body vibration and repeated shock. Journal of Sound and Vibration, 104(3):803-914, 1998.
• M. J. Griffin. Minimum health and safety requirements for workers exposed to hand-transmitted vibration and whole-body vibration in the european union; a review. Occupational and Environmental Medicine, 61(5):387-397, 2004.
• British Standard. BS 6841: Measurement and evaluation of human exposure to whole-body mechanical vibration and repeated shock, 1987.
• G. Kouroussis, O. Verlinden, and C. Conti. A two-step time simulation of ground vibrations induced by the railway traffic. Journal of Mechanical Engineering Science, 226(2):454-472, 2012.
• G. Kouroussis, L. Van Parys, C. Conti, and O. Verlinden. Prediction of ground vibrations induced by urban railway traffic: an analysis of the coupling assumptions between vehicle, track, soil, and buildings. International Journal of Acoustics and Vibration, 18(4): 163-172, 2013.
• G. Kouroussis, O. Verlinden, and C. Conti. Efficiency of resilient wheels on the alleviation of railway ground vibrations. Proc. IMechE, Part F: J. Rail and Rapid Transit, 226(4):381-396, 2012.
• G. Kouroussis, N. Pauwels, P. Brux, C. Conti, and O. Verlinden. A numerical analysis of the influence of tram characteristics and rail profile on railway traffic ground-borne noise and vibration in the brussels region. Science of The Total Environment, 482-483:452-460, 2014.