UIC High Speed Department. High speed lines in the world; 2013.
H. Hung, and Y. Yang A review of researches on ground-borne vibrations with emphasis on those induced by trains Proc Natl Sci Counc 25 1 2000 1 16
Lombaert G, Degrande G, François S, Thompson DJ. Ground-borne vibration due to railway traffic. In: International workshop of railway noise; 2013. p. 266-301.
Avillez J, Frost M, Cawser S, Skinner C, El-Hamalawi A, Fleming P, et al. Procedures for estimating environmental impact from railway induced vibration - a review. In: Proceedings of the internoise 2012/ASME NCAD meeting; 2012.
T. Dahlberg Some railroad settlement models - a critical review Proc Inst Mech Eng Part F: J Rail Rapid Transit 215 4 2001 289 300
A.M. Remennikov, and S. Kaewunruen Progress in structural engineering and materials: structural safety and reliability a review of loading conditions for railway track structures due to train and track vertical interaction Struct Control Heal Monit October 2006 2008 207 234
D.W. Barke, and W.K. Chiu A review of the effects of out-of-round wheels on track and vehicle components Proc Inst Mech Eng Part F: J Rail Rapid Transit 219 3 2005 151 175
Y. Sato, A. Matsumoto, and K. Knothe Review on rail corrugation studies Wear 253 2002 130 139
K. Knothe, and S. Grassie Modelling of railway track and vehicle/track interaction at high frequencies Veh Syst Dyn 22 1993 209 262
K. Popp, H. Kruse, and I. Kaiser Vehicle-track dynamics in the mid-frequency range Veh Syst Dyn January 2014 2010 423 464
Deutsche Bagn AG, Terno Hans-Joerg. State of the art review of mitigation measures on track. Deliverable 3.1 (RIVAS); 2011.
Eitzenberger A. Train-induced vibrations in tunnels - a review; 2008.
D.E.H. Newland, and H.E.M. Hunt Isolation of buildings from ground vibration - a review of recent progress Proc Inst Mech Eng 205 1991 39 52
D. Clouteau, R. Cottereau, and G. Lombaert Dynamics of structures coupled with elastic media - a review of numerical models and methods J Sound Vib 332 10 2013 2415 2436
N.J. Mansfield Low frequency vibration comfort - a literature review Hum Perform 2006
G. Lombaert, and G. Degrande Ground-borne vibration due to static and dynamic axle loads of InterCity and high-speed trains J Sound Vib 319 January 2009 1036 1066
Thompson D. Railway noise and vibration. Mechanisms, modelling and means of control. Elsevier Ltd.; 2009. p. 1-532.
R. Woods Screening of surface waves in soils J Soil Mech Found Div ASCE 94 1968 951 979
L. Bergmann Ultrasonics and their scientific and technical applications 1948 Wiley New York
M. Rahman, and T. Michelitsch A note on the formula for the Rayleigh wave speed Wave Motion 43 3 2006 272 276
P.G. Malischewsky Comparison of approximated solutions for the phase velocity of Rayleigh waves (Comment on 'Characterization of surface damage via surface acoustic waves') Nanotechnology 16 6 2005 995 996
G. Kouroussis, D.P. Connolly, and O. Verlinden Railway induced ground vibrations - a review of vehicle effects Int J Rail Transp 2 2 2014 69 110
J. Sundström, and S. Khan Influence of stationary lateral vibrations on train passengers' difficulty to read and write Appl Ergon 39 6 2008 710 718
C. Corbridge, and M.J. Griffin Effects of vertical vibration on passenger activities: writing and drinking Ergonomics 34 10 1991 1313 1332
H. Suzuki Research trends on riding comfort evaluation in Japan Proc Inst Mech Eng Part F: J Rail Rapid Transit 212 1 1998 61 72
M.G. Pollard, and N.J.A. Simons Passenger comfort - the role of active suspensions J Automob Eng 198D 11 1984 161 175
M.J. Griffin Effects of horizontal whole-body vibration on reading Appl Ergon 25 3 1994 165 169
M.S. Khan, and J. Sundstrom Effects of vibration on sedentary activities in passenger trains Low Freq Noise Vib Act Control 26 1 2007 43 55
H. Suzuki, H. Shiroto, and K. Tezuka Effects of low frequency vibration on train motion sickness vibration Q Rep RTRI 46 1 2005 35 39
M.H. Kargarnovin, D. Younesian, D. Thompson, and C. Jones Ride comfort of high-speed trains travelling over railway bridges Veh Syst Dyn 43 3 2005 173 199
W. Yoo, C. Lee, W. Jeong, and S. Kim Development and application of new evaluation system for ride comfort and vibration on railway vehicles J Mech Sci Technol 19 7 2005 1469 1477
A. Stribersky, F. Moser, and W. Rulka Structural dynamics and ride comfort of a rail vehicle system Adv Eng Softw 33 7-10 2002 541 552
Y. Wu, and Y. Yang Steady-state response and riding comfort of trains moving over a series of simply supported bridges Eng Struct 25 2 2003 251 265
J. Yau, Y. Yang, and S. Kuo Impact response of high speed rail bridges and riding comfort of rail cars Eng Struct 21 9 1999 836 844
J.H. Lee, B.S. Jin, and Y. Ji Development of a Structural Equation Model for ride comfort of the Korean high-speed railway Int J Ind Ergon 39 1 2009 7 14
M. Nejlaoui, Z. Affi, A. Houidi, and L. Romdhane Analytical modeling of rail vehicle safety and comfort in short radius curved tracks CR Mécanique 337 5 2009 303 311
K. Karakasis, D. Skarlatos, and T. Zakinthinos A factorial analysis for the determination of an optimal train speed with a desired ride comfort Appl Acoust 66 10 2005 1121 1134
G. Wilson, H. Saurenman, and J. Nelson Control of ground-borne noise and vibration J Sound Vib 87 2 1983 339 350
A. Pita, P.F. Teixeira, and F. Robuste High speed and track deterioration: the role of vertical stiffness of the track Proc Inst Mech Eng Part F: J Rail Rapid Transit 218 1 2004 31 40
T. Dahlberg Railway track stiffness variations - consequences and countermeasures Int J Civil Eng 8 1 2010 1 12
J. Nielsen, and A. Johansson Out-of-round railway wheels - a literature survey Proc Inst Mech Eng Part F: J Rail Rapid Transit 214 2 2000 79 91
Nielsen J, Mirza A, Cervello S, Frid A, Muller R, Nelain B, et al. Train induced ground vibration - optimised rolling stock mitigation measures and their parameters (RIVAS); 2013.
Nielsen J, Mirza AM, Ruest P, Huber P, Cervello S, Muller R, et al. Guideline for design of vehicles generating reduced ground vibration (RIVAS); 2013.
J.N. Varandas, P. Hölscher, and M.a.G. Silva Dynamic behaviour of railway tracks on transitions zones Comput Struct 89 13-14 2011 1468 1479
M. Heckl, G. Hauck, and R. Wettschureck Structure-borne sound and vibration from rail traffic J Sound Vib 193 1 1996 175 184
British Standards Institution. Mechanical vibration - ground-borne noise and vibration arising from rail systems - BS ISO 14837 Part 1: General guidance; 2005.
Ferrara R, Leonardi G, Jourdan F. A two-dimensional numerical model to analyze the critical velocity of high speed infrastructure the 2D numerical model. In: Proceedings of the fourteenth international conference on civil, structural and environmental engineering computing; 2013. p. 1-16.
J. Kenney Steady-state vibrations of beam on elastic foundation for moving load J Appl Mech 76 1954 359 364
L. Fryba Vibration of solids and structures under moving loads 1972 Noordhoff International Publishing Groningen, The Netherlands p. 1-524
S. Iwnicki Handbook of railway vehicle Dynamics 2006 1 552
S.G. Newton, and R.a. Clark An investigation into the dynamic effects on the track of wheelflats on railway vehicles Arch J Mech Eng Sci 1959-1982 (vols. 1-23) 21 4 1979 287 297
C. Cai, Y.K. Cheung, and H.C. Chan Dynamic response of infinite continuous beams subjected to a moving force - an exact method J Sound Vib 123 22 1988 461 472
S. Chonan The elastically supported Timoshenko beam subjected to an axial force and a moving load Int J Mech Sci 17 9 1975 573 581
L. Auersch Dynamic interaction of various beams with the underlying soil - finite and infinite, half-space and Winkler models Eur J Mech - A/Solids 27 September 2008 933 958
A. Suiker, R. de Borst, and C. Esveld Critical behaviour of a Timoshenko beam-half plane system under a moving load Arch Appl Mech 68 3-4 1998 158 168
Y. Chen Response of an infinite Timoshenko beam on a viscoelastic foundation to a harmonic moving load J Sound Vib 241 5 2001 809 824
M.H. Kargarnovin, D. Younesian, D.J. Thompson, and C.J.C. Jones Response of beams on nonlinear viscoelastic foundations to harmonic moving loads Comput Struct 83 23-24 2005 1865 1877
M. Kargarnovin Dynamics of Timoshenko beams on Pasternak foundation under moving load Mech Res Commun 31 6 2004 713 723
T. Wu, and D.J. Thompson On the parametric excitation of the wheel/track system J Sound Vib 278 4-5 2004 725 747
X. Lei, and J.G. Rose Track vibration analysis for railways with mixed passenger and freight traffic Proc Inst Mech Eng Part F: J Rail Rapid Transit 2008
D. Mead Free wave propagation in periodically supported infinite beams J Sound Vib 11 1970 187 197
Croft B. The development of rail-head acoustic roughness. PhD thesis. University of Southampton; 2009. p. 1-283
G. Kouroussis, G. Gazetas, I. Anastasopoulos, C. Conti, and O. Verlinden Discrete modelling of vertical track-soil coupling for vehicle-track dynamics Soil Dyn Earthq Eng 31 12 2011 1711 1723
K. Knothe, and Y. Wu Receptance behaviour of railway track and subgrade Arch Appl Mech 68 7-8 1998 457 470
S. Patil Natural frequencies of a railroad track J Appl Mech 54 2 1987 299 304
Z.G. Cao, Y.Q. Cai, H.L. Sun, and C.J. Xu Dynamic responses of a poroelastic half-space from moving trains caused by vertical track irregularities Int J Numer Anal Methods Geomech 35 2011 761 786
Y. Cai, Z. Cao, H. Sun, and C. Xu Effects of the dynamic wheel-rail interaction on the ground vibration generated by a moving train Int J Solids Struct 47 17 2010 2246 2259
X. Sheng, C.J.C. Jones, and D.J. Thompson A theoretical model for ground vibration from trains generated by vertical track irregularities J Sound Vib 272 3-5 2004 937 965
S. Timoshenko The collected papers of Stepan Prokopovitch Timoshenko 1878-1972 1953 McGraw-Hill London, New York p. 1-642
M. Shamalta, and A.V. Metrikine Analytical study of the dynamic response of an embedded railway track to a moving load Arch Appl Mech 73 2003 131 146
M.J.M.M. Steenbergen, and A.V. Metrikine The effect of the interface conditions on the dynamic response of a beam on a half-space to a moving load J Mech 26 2007 33 54
L. Sun Dynamic displacement response of beam-type structures to moving line loads Int J Solids Struct 38 48-49 2001 8869 8878
A.V. Metrikine Stability of a two-mass oscillator moving on a beam supported by a visco-elastic half-space Int J Solids Struct 42 3-4 2005 1187 1207
J.C.O. Nielsen, and T.J.S. Abrahamsson Coupling of physical and modal components for analysis of moving non-linear dynamic systems on general beam structures Int J Numer Methods Eng 33 1992 1843 1859
X. Sheng, C.J.C. Jones, and D.J. Thompson A comparison of a theoretical model for quasi-statically and dynamically induced environmental vibration from trains with measurements J Sound Vib 267 2003 621 635
X. Lei, and N. Noda Analyses of dynamic response of vehicle and track coupling system with random irregularity of track vertical profile J Sound Vib 258 2002 147 165
J. Nielsen, and A. Igeland Vertical dynamic interaction between train and track influence of wheel and track imperfections J Sound Vib 187 5 1995 825 839
G. Kouroussis, O. Verlinden, and C. Conti A two-step time simulation of ground vibrations induced by the railway traffic Proc Inst Mech Eng Part C: J Mech Eng Sci 226 2 2012 454 472
Y.Q. Sun, and M. Dhanasekar A dynamic model for the vertical interaction of the rail track and wagon system Int J Solids Struct 39 2002 1337 1359
S.H. Ju, J.R. Liao, and Y.L. Ye Behavior of ground vibrations induced by trains moving on embankments with rail roughness Soil Dyn Earthq Eng 30 11 2010 1237 1249
W. Zhai Two simple fast integration methods for large-scale dynamic problems in engineering Int J Numer Methods Eng 39 1994 1996 4199 4214
W.M. Zhai, Q.C. Wang, Z.W. Lu, and X.S. Wu Dynamic effects of vehicles on tracks in the case of raising train speeds Proc Inst Mech Eng Part F: J Rail Rapid Transit 215 2 2001 125 135
G. Kouroussis, O. Verlinden, and C. Conti On the interest of integrating vehicle dynamics for the ground propagation of vibrations: the case of urban railway traffic Veh Syst Dyn 48 12 2010 1553 1571
P.A. Costa, R. Calcada, and A.S. Cardoso Influence of train dynamic modelling strategy on the prediction of track-ground vibrations induced by railway traffic Proc Inst Mech Eng Part F: J Rail Rapid Transit 226 4 2012 434 450
R.G. Dong, S. Sankar, and R.V. Dukkipati A finite element model of railway track and its application to the wheel flat problem Arch Proc Inst Mech Eng Part F: J Rail Rapid Transit 1989-1996 (vols. 203-210) 208 16 1994 61 72
S.H. Ju, H. Lin, C. Hsueh, and S. Wang A simple finite element model for vibration analyses induced by moving vehicles Online April 2006 1232 1256
L. Auersch The excitation of ground vibration by rail traffic: theory of vehicle-track-soil interaction and measurements on high-speed lines J Sound Vib 284 June 2005 103 132
M. Banimahd, J. Kennedy, P. Woodward, and G. Medero Behaviour of train-track interaction in stiffness transitions Proc Inst Civ Eng 1 2010 1 10
Y. Bezin, S.D. Iwnicki, M. Cavalletti, E. De Vries, F. Shahzad, and G. Evans An investigation of sleeper voids using a flexible track model integrated with railway multi-body dynamics J Rail Rapid Transit 223 2009 597 607
A. El Kacimi, P.K. Woodward, O. Laghrouche, and G. Medero Time domain 3D finite element modelling of train-induced vibration at high speed Comput Struct 118 March 2013 66 73
J. Wang, X. Jin, and Y. Cao High-speed maglev train-guideway-tunnel-soil modelling of ground vibration Proc Inst Mech Eng Part F: J Rail Rapid Transit 226 3 2011 331 344
J. Wang, X. Jin, Y. Cao, and X. Du Numerical simulation of high-speed maglev vehicle-guideway-tunnel-soil system Int J Comput Methods Eng Sci Mech 13 2 2012 93 107
D. Connolly, A. Giannopoulos, and M.C. Forde Numerical modelling of ground borne vibrations from high speed rail lines on embankments Soil Dyn Earthq Eng 46 March 2013 13 19
D. Connolly, A. Giannopoulos, W. Fan, P.K. Woodward, and M.C. Forde Optimising low acoustic impedance back-fill material wave barrier dimensions to shield structures from ground borne high speed rail vibrations Constr Build Mater 44 July 2013 557 564
O'Sullivan C. Particulate discrete element modelling: a geomechanics perspective; 2011. p. 576.
W.L. Lim, and G.R. McDowell Discrete element modelling of railway ballast Granul Matter 7 1 2005 19 29
M. Lu, and G.R. McDowell The importance of modelling ballast particle shape in the discrete element method Granul Matter 9 1-2 2006 69 80
S. Lobo-Guerrero, and L.E. Vallejo Discrete element method analysis of railtrack ballast degradation during cyclic loading Granul Matter 8 3-4 2006 195 204
A. Suiker Dynamic behaviour of a layer of discrete particles, Part 2: Response to a uniformly moving, harmonically vibrating load J Sound Vib 240 1 2001 19 39
Dubois F, Renouf M, Taforel P, Voivret C. On the use of an high performance hybrid FEM/DEM modelling approach for an improved simulation of railway track. In: RTSE international workshop - ballast: issues and challenges; 2013.
H. Huang, and S. Chrismer Discrete element modeling of ballast settlement under trains moving at 'Critical Speeds' Constr Build Mater 38 January 2013 994 1000
P.A. Costa, R. Calçada, and A.S. Cardoso Ballast mats for the reduction of railway traffic vibrations. Numerical study Soil Dyn Earthq Eng 42 November 2012 137 150
H. Lamb On the propagation of tremors over the surface of an elastic solid Philos Trans Roy Soc Lond Ser A: Contain Pap A Math or Phys Charact 203 July 1904 1 42
J.D. Achenbach Lamb's problem for solids of general anisotropy Science (80-.) 24 1996 227 242
Achenbach JD. Wave propagation in elastic solids. North Holland; 1984. p. 440.
T.G. Gutowski, and C.L. Dym Propagation of ground vibration: a review J Sound Vib 49 2 1976 179 193
Krylov VV. Noise and vibration from high-speed trains. Thomas Telford Ltd.; 2001. p. 1-435.
V.V. Krylov Vibrational impact of high-speed trains. I. Effect of track dynamics J Acoust Soc Am 100 5 1996 3121
H. Dieterman, and A. Metrikine The equivalent stiffness of a half-space interacting with a beam. Critical velocities of a moving load along the beam Eur J Mech - A/Solids 15 1 1996 67 90
G. Degrande, and G. Lombaert An efficient formulation of Krylov's prediction model for train induced vibrations based on the dynamic reciprocity theorem J Acoust Soc Am 110 3 2001 1379 1390
H. Grundmann, and S. Lenz Nonlinear interaction between a moving SDOF system and a Timoshenko beam/halfspace support Arch Appl Mech 72 2003 830 842
A. Karlstrom, and A. Bostrom An analytical model for train-induced ground vibrations from railways J Sound Vib 292 April 2006 221 241
H. Takemiya Simulation of track - ground vibrations due to a high-speed train: the case of X-2000 at Ledsgard J Sound Vib 261 3 2003 503 526
I. Sneddon Fourier transforms 1951 McGraw-Hill New York, USA
D.C. Gakenheimer, and J. Miklowitz Transient excitation of an elastic half space by a point load traveling on the surface J Appl Mech 36 3 1969 505 515
J. Luco, and R. Apsel On the greens functions for a layered half-space - Part 1 Bull Seismol Soc Am 73 4 1983 909 929
B. Alabi A parametric study on some aspects of ground-borne vibrations due to rail traffic J Sound Vib 153 1 1992 77 87
A.T. de Hoop The moving-load problem in soil dynamics - the vertical displacement approximation Wave Motion 36 2002 335 346
M.C.M. Bakker, M.D. Verweij, B.J. Kooij, and H.A. Dietermana The traveling point load revisited Wave Motion 29 1999 119 135
W. Liao, T. Teng, and C. Yeh A method for the response of an elastic half-space to moving sub-Rayleigh point loads J Sound Vib 284 1-2 2005 173 188
H. Grundmann, M. Lieb, and E. Trommer The response of a layered half-space to traffic loads moving along its surface Arch Appl Mech (Ingenieur Arch) 69 1 1999 55 67
M. Lieb, and B. Sudret A fast algorithm for soil dynamics calculations by wavelet decomposition Arch Appl Mech (Ingenieur Arch) 68 3-4 1998 147 157
M. Katou, T. Matsuoka, O. Yoshioka, Y. Sanada, and T. Miyoshi Numerical simulation study of ground vibrations using forces from wheels of a running high-speed train J Sound Vib 318 December 2008 830 849
R.M. Thornely-Taylor The prediction of vibration, groundborne and structure-radiated noise from railways using finite difference methods - Part I - Theory Proc Inst Acoust 26 2004 1 11
G. Kouroussis, O. Verlinden, and C. Conti Free field vibrations caused by high-speed lines: measurement and time domain simulation Soil Dyn Earthq Eng 31 4 2011 692 707
P. Galvin, and J. Domínguez Experimental and numerical analyses of vibrations induced by high-speed trains on the Córdoba-Málaga line Soil Dyn Earthq Eng 29 4 2009 641 657
J. O'Brien, and D. Rizos A 3D BEM-FEM methodology for simulation of high speed train induced vibrations Soil Dyn Earthq Eng 25 April 2005 289 301
P. Galvín, and a. Romero A 3D time domain numerical model based on half-space Green's function for soil-structure interaction analysis Comput Mech November 2013
X. Sheng, C. Jones, and D. Thompson Prediction of ground vibration from trains using the wavenumber finite and boundary element methods J Sound Vib 293 3-5 2006 575 586
L. Andersen, and S.R.K. Nielsen Reduction of ground vibration by means of barriers or soil improvement along a railway track Soil Dyn Earthq Eng 25 7-10 2005 701 716
Auersch L. The influence of the soil on track dynamics and ground-borne vibration. In: Maeda T, Gautier P-E, Hanson CE, Hemsworth B, Nelson JT, Schulte-Werning B, et al., editors. Noise and vibration mitigation for rail transportation systems, proceedings of the 9th international workshop on railway noise, vol. 99; 2008. p. 122-128.
H. Verbraken, G. Lombaert, and G. Degrande Verification of an empirical prediction method for railway induced vibrations by means of numerical simulations J Sound Vib 330 8 2011 1692 1703
S. François, M. Schevenels, P. Galvin, G. Lombaert, and G. Degrande A 2.5D coupled FE-BE methodology for the dynamic interaction between longitudinally invariant structures and a layered halfspace Comput Methods Appl Mech Eng 199 23-24 2010 1536 1548
Y. Yang, and H. Hung A 2.5D finite/infinite element approach for modelling viscoelastic bodies subjected to moving loads Int J Numer Methods Eng 51 11 2001 1317 1336
X. Bian, W. Jin, and H. Jiang Ground-borne vibrations due to dynamic loadings from moving trains in subway tunnels J Zhejiang Univ Sci A 13 11 2012 870 876
Y.B. Yang, F. Asce, and H.H. Hung Soil vibrations caused by underground moving trains J Geotech Geoenviron Eng 134 2008 1633 1644
S. Gupta, M. Hussein, G. Degrande, H.E.M. Hunt, and D. Clouteau A comparison of two numerical models for the prediction of vibrations from underground railway traffic Soil Dyn Earthq Eng 27 7 2007 608 624
M.F.M. Hussein, and H.E.M. Hunt A numerical model for calculating vibration due to a harmonic moving load on a floating-slab track with discontinuous slabs in an underground railway tunnel J Sound Vib 321 1-2 2009 363 374
Federal Railroad Administration. High-speed ground transportation noise and vibration impact assessment. U.S. Department of Transportation; 2012.
D.P. Connolly, G. Kouroussis, A. Giannopoulos, O. Verlinden, P.K. Woodward, and M.C. Forde Assessment of railway vibrations using an efficient scoping model Soil Dyn Earthq Eng 58 March 2014 37 47
F. Rossi, and A. Nicolini A simple model to predict train-induced vibration: theoretical formulation and experimental validation Environ Impact Asses 23 3 2003 305 322 10.1016/S0195-9255(03)00005-2
P. Salvador, J. Real, C. Zamorano, and A. Villanueva A procedure for the evaluation of vibrations induced by the passing of a train and its application to real railway traffic Math Comput Model 53 1-2 2011 42 54
J. Virieux P-SV wave propagation in heterogenous media: velocity-stress finite-difference method Geophysics 51 4 1986
R.W. Graves Simulating seismic wave propagation in 3D elastic media using staggered-grid finite differences Bull Seismol Soc Am 86 4 1996 1091 1106
U. Basu Explicit finite element perfectly matched layer for transient three-dimensional elastic waves Int J Numer Methods Eng 77 2009 151 176
Giannopoulos A, Melling S, Connolly DP. A second order PML implementation for FDTD seismic modelling. In: Near surface geoscience 2012 - 18th European meeting of environmental and engineering geophysics; 2012.
X. Sheng, C.J.C. Jones, and M. Petyt Ground vibration generated by a load moving along a railway track J Sound Vib 228 1 1999 129 156
X. Sheng, C.J.C. Jones, and M. Petyt Ground vibration generated by a harmonic load acting on a railway track J Sound Vib 225 1 1999 3 28
Sheng X. Ground vibrations generated from trains (PhD thesis). University of Southampton; 2001.
G. Liu, and S. Quek The finite element method - a practical course 2003 Butterworth-Heinemann Oxford, UK p. 1-365
M. Petyt Introduction to finite element vibration analysis 2010 Cambridge University Press p. 518
I. Smith, and D. Griffiths Programming the finite element method 1997 Wiley NY p. 1-648
P. Bettess, and O.C. Zienkiewicz Diffraction and refraction of surface waves using finite and infinite elements J Numer Methods Eng 11 8 1977 1271 1290
P. Bettess Infinite elements 1992 Penshaw Press
R. Astley Infinite elements for wave problems: a review of current formulations and an assessment of accuracy Int J Numer Methods Eng 49 2000 951 976
J. Barbosa, J. Park, and E. Kausel Perfectly matched layers in the thin layer method Comput Methods Appl Mech Eng 217-220 April 2012 262 274
T. Ekevid, and N. Wiberg Wave propagation related to high-speed train A scaled boundary FE-approach for unbounded domains Comput Methods Appl Mech Eng 191 2002 3947 3964
J.P. Berenger A perfectly matched layer for the absorption of electromagnetic waves J Comput Phys 114 2 1994 185 200
U. Basu Perfectly matched layers for time-harmonic elastodynamics of unbounded domains: theory and finite-element implementation Comput Methods Appl Mech Eng 192 March 2003 1337 1375
J. Domínguez Boundary elements in dynamics 1993 WIT Press p. 450
E. Çelebi, S. FIrat, and I. Çankaya The effectiveness of wave barriers on the dynamic stiffness coefficients of foundations using boundary element method Appl Math Comput 180 2 2006 683 699
Fiala P, Gupta S, Degrande G, Augusztinovicz F. A numerical model for re-radiated noise in buildings; 2008. p. 115-21.
Villot M, Guigou C, Jean P, Picard N. Definition of appropriate procedures to predict exposure in buildings and estimate annoyance (RIVAS); 2012.
D. Clouteau, M. Arnst, T.M. Al-Hussaini, and G. Degrande Freefield vibrations due to dynamic loading on a tunnel embedded in a stratified medium J Sound Vib 283 1-2 2005 173 199
D. Clouteau, R. Othman, M. Arnst, and H. Chebli A numerical model for ground-borne vibrations from underground railway traffic based on a periodic finite element-boundary element formulation J Sound Vib 293 2006 645 666
G. Degrande, and L. Schillemans Free field vibrations during the passage of a Thalys high-speed train at variable speed J Sound Vib 247 1 2001 131 144
Connolly DP. High speed rail dataset; 2014. www.davidpconnolly.com
G. Kouroussis, D.P. Connolly, M.C. Forde, and O. Verlinden Train speed calculation using ground vibrations Proc Inst Mech Eng Part F: J Rail Rapid Transit December 2014 1 18
H. Kanda, H. Ishii, and O. Yoshioka Field measurement and its analysis of 'hybrid vibration isolation wall' using gas cushions Transp Res Board Annu Meet 2006
A. Alzawi, and M. Hesham El Naggar Full scale experimental study on vibration scattering using open and in-filled (GeoFoam) wave barriers Soil Dyn Earthq Eng 31 3 2011 306 317
S. Kattis, D. Polyzos, and D. Beskos Modelling of pile wave barriers by effective trenches and their screening effectiveness Soil Dyn Earthq Eng 18 1 1999 1 10
Y. Yang, and H. Hung A parametric study of wave barriers for reduction of train-induced vibrations Int J Numer Methods Eng 40 1997 3729 3747
G. Gao, G. Shi, S. Feng, and C. Qiu 3D analysis of in-filled trench as passive barriers for ground vibration isolation Sci China Ser G: Phys Mech Astron 51 10 2008 1573 1585
A. Karlstrom, and A. Bostrom Efficiency of trenches along railways for trains moving at sub- or supersonic speeds Soil Dyn Earthq Eng 27 7 2007 625 641
Ju SH. Three-dimensional analyses of wave barriers for reduction of train-induced vibrations, July; 2004. p. 740-48.
Coulier P, Degrande G, Dijckmans A, Houbrechts J, Lombaert G, Rucker W, et al. Scope of the parametric study on mitigation measures on the transmission path (RIVAS - Deliverable D4.1); 2011.
B. Picoux, R. Rotinat, J.P. Regoin, and D. Le Houédec Prediction and measurements of vibrations from a railway track lying on a peaty ground J Sound Vib 267 3 2003 575 589
P.A. Costa, R. Calcada, A.S. Cardoso, and A. Bodare Influence of soil non-linearity on the dynamic response of high-speed railway tracks Soil Dyn Earthq Eng 30 2010 221 235
C. Madshus, S. Lacasse, A. Kaynia, and L. Harvik Geodynamic challenges in high speed railway projects Geotech Eng Transport Project 2004 192 215
Holm G, Andreasson B, Bengtsson P, Bodare A, Eriksson H. Mitigation of track and ground vibrations by high speed trains at Ledsgard, Sweden. Report 10. Svensk Djupstabilisering; 2002.
C. Madshus High-speed railway lines on soft ground: dynamic behaviour at critical train speed J Sound Vib 231 3 2000 689 701
M. Jamiolkowski, R. Lanellotia, S. Marchetti, R. Nova, and E. Pasqualini Design parameters for soft clays Proc 7th Eur Conf Soil Mech Found Eng 1979 27 57
P.K. Woodward, J. Kennedy, G.M. Medero, and M. Banimahd Maintaining absolute clearances in ballasted railway tracks using in situ three-dimensional polyurethane GeoComposites Proc Inst Mech Eng Part F: J Rail Rapid Transit 226 3 2011 257 271
P.K. Woodward, J. Kennedy, G.M. Medero, and M. Banimahd Application of in situ polyurethane geocomposite beams to improve the passive shoulder resistance of railway track Proc Inst Mech Eng Part F: J Rail Rapid Transit 226 3 2011 294 304
Stiebel D, Muller R, Bongini E, Ekbald A, Coquel G, Alguacil AA. Definition of reference cases typical for hot-spots in Europe with existing vibration problems (RIVAS - Deliverable D1.5); 2012.
Kouroussis G, Verlinden O, Conti C. Contribution of vehicle/track dynamics to the ground vibrations induced by the Brussels tramway. In: International conference on noise and vibration engineering (ISMA2010), vol. 2010; 2010. p. 3489-502.
Hanson CE, Towers DA, Meister LD. Transit noise and vibration (Federal Railroad Administration); 2006.
R.A. Hood, R.J. Greer, M. Breslin, and P.R. Williams The calculation and assessment of ground-borne noise and perceptible vibration from trains in tunnels J Sound Vib 193 1 1996 215 225
C. Madshus, C. Bessason, and L. Harvik Prediction model for low frequency vibration from high speed railways on soft ground J Sound Vib 193 1 1996 195 203
Bahrekazemi M. Train-induced ground vibration and its prediction (PhD thesis). Stockholm University; 2004.
F. Rossi, and A. Nicolini A simple model to predict train-induced vibration: theoretical formulation and experimental validation Environ Impact Assess Rev 23 3 2003 305 322
J. Nelson, and H. Saurenman A prediction procedure for rail transportation groundborne noise and vibration Transport Res Rec J Transport Res Board 1143 1987 26 35
E. Bovey Development of an impact method to determine the vibration transfer characteristics of railway installations J Sound Vib 87 2 1983 357 370
C. With, and a. Bodare Prediction of train-induced vibrations inside buildings using transfer functions Soil Dyn Earthq Eng 27 2 2007 93 98
H. Kuppelweiser, and A. Ziegler A tool for predicting vibration and structure-borne noise immissions caused by railways J Sound Vib 193 1 1996 261 267
C. With, A.V. Metrikine, and A. Bodare Identification of effective properties of the railway substructure in the low-frequency range using a heavy oscillating unit on the track Arch Appl Mech 80 9 2009 959 968
M. Schevenels, G. Lombaert, G. Degrande, and S. François A probabilistic assessment of resolution in the SASW test and its impact on the prediction of ground vibrations Geophys J Int 172 1 2008 262 275
Hunt HEM, Hussein MFM. Vibration from railways: can we achieve better than ±10 dB prediction accuracy? In: 14th International congress on sound and vibration; 2007.
J.P. Wolf, and C. Song Some cornerstones of dynamic soil-structure interaction Eng Struct 24 2002 13 28
S.C. Dutta, and R. Roy A critical review on idealization and modeling for interaction among soil-foundation-structure system Comput Struct 80 20-21 2002 1579 1594
S.G. Shah, C.H. Solanki, and J.A. Desai Soil structure interaction analysis methods state of art review Int J Civ Struct Eng 2 1 2011 176 204
Bewes O. Managing uncertainty in groundborne noise and vibration predictions. In: ANC conference, May; 2012.
S. Jones, K. Kuo, M. Hussein, and H. Hunt Prediction uncertainties and inaccuracies resulting from common assumptions in modelling vibration from underground railways Proc Inst Mech Eng Part F: J Rail Rapid Transit 226 5 2012 501 512
Jones S. Ground vibration from underground railways: how simplifying assumptions limit prediction accuracy (PhD thesis). University of Cambridge; 2010.
L. Andersen, and C.J.C. Jones Coupled boundary and finite element analysis of vibration from railway tunnels - a comparison of two- and three-dimensional models J Sound Vib 293 3-5 2006 611 625
Lermo J, Ovando E, Limaymanta M. Empirical transfer functions to build soil classification maps for seismic design, 1998; 2008.
L. Auersch Building response due to ground vibration - simple prediction model based on experience with detailed models and measurements Int J Acoust Vib 15 3 2010 101 112
T. Balendra, K. Chua, K. Lo, and S. Lee Steady-state vibration of subway-soil-building system J Eng Mech 115 1 1989 145 162
M. Hussein, H.E.M. Hunt, K. Kuo, P.A. Costa, and J. Barbosa The use of sub-modelling technique to calculate vibration in buildings from underground railways Proc Inst Mech Eng Part F: J Rail Rapid Transit 2013
P. Fiala, G. Degrande, and F. Augusztinovicz Numerical modelling of ground-borne noise and vibration in buildings due to surface rail traffic J Sound Vib 301 3-5 2007 718 738
A.B. Nagy, P. Fiala, F. Márki, F. Augusztinovicz, G. Degrande, and S. Jacobs Prediction of interior noise in buildings generated by underground rail traffic J Sound Vib 293 3-5 2006 680 690
M.G. Smith, I. Croy, M. Ogren, and K. Persson Waye On the influence of freight trains on humans: a laboratory investigation of the impact of nocturnal low frequency vibration and noise on sleep and heart rate PLoS One 8 2 2013 e55829
Yano T. Community response to Shinkansen noise and vibration: a survey in areas along the Sanyo Shinkansen line; 2004. p. 1837-41.
R. Klæboe Vibration in dwellings from road and rail traffic - Part II: exposure-effect relationships based on ordinal logit and logistic regression models Appl Acoust 64 1 2003 89 109
C. Sharp, J. Woodcock, G. Sica, E. Peris, A.T. Moorhouse, and D.C. Waddington Exposure-response relationships for annoyance due to freight and passenger railway vibration exposure in residential environments J Acoust Soc Am 135 1 2014 205 212
Zapfe J, Saurenman H, Fidell S. Ground-bourne noise and vibration in buildings caused by rail transit (TCRP Project D-12). Transport Res Board, December; 2009. p. 1-208.
A. Gidlöf-Gunnarsson, M. Orgen, T. Jerson, and E. Ohrstrom Railway noise annoyance and the importance of number of trains, ground vibration, and building situational factors Noise Heal 14 59 2012 190 201
Elias P, Villot M. Review of existing standards, regulations and guidelines, as well as laboratory and field studies concerning human exposure to vibration. Deliverable D1.4. (RIVAS); 2011.
D.C. Waddington, J. Woodcock, E. Peris, J. Condie, G. Sica, and A.T. Moorhouse Human response to vibration in residential environments J Acoust Soc Am 135 1 2014 182 193
Deutsches Institut fur Normung. DIN 4150-2 - human exposure to vibration in buildings. International Standards Organisation; 1999.
M.J. Griffin A comparison of standardized methods for predicting the hazards of whole-body vibration and repeated shocks J Sound Vib 215 4 1998 883 914
H. Howarth, and M. Griffin The annoyance caused by simultaneous noise and vibration from railways J Acoust Soc Am 89 5 1991 2317 2323
P. Paulsen, and J. Kastka Effects of combined noise and vibration on annoyance J Sound Vib 181 2 1995 295 314
H. Findeis, and E. Peters Disturbing effects of low-frequency sound immissions and vibrations in residential buildings Noise Heal 6 23 2004 29 35
G. Sica, E. Peris, J.S. Woodcock, A.T. Moorhouse, and D.C. Waddington Design of measurement methodology for the evaluation of human exposure to vibration in residential environments Sci Total Environ 482-483 2014 461 471
E. Peris, J. Woodcock, G. Sica, A.T. Moorhouse, and D.C. Waddington Annoyance due to railway vibration at different times of the day J Acoust Soc Am 131 2 2012 EL191 EL196
Walker RA. Buildings on springs. International series of monographs in civil engineering, vol. 2. Oxford: Pergamon; 1969.
J.P. Talbot, and H.E.M. Hunt The effect of side-restraint bearings on the performance of base-isolated buildings Proc Inst Mech Eng Part C: J Mech Eng Sci 217 8 2003 849 859
Boxoen T, Risbey D, Weber C. Train induced vibration isolation of Theskyvue, Sydney Australia, August; 2010.
Talbot JP. On the performance of base-isolated buildings: a generic model (PhD thesis); 2001.
Zhao N, Sanayei M, Moore JA, Zapfe JA, Hines EM. Mitigation of train-induced floor vibrations in multi-story buildings using a blocking floor. In: Structures congress; 2010. p. 1-11.
D.P. Connolly, G. Kouroussis, P.K. Woodward, A. Giannopoulos, O. Verlinden, and M.C. Forde Scoping prediction of re-radiated ground-borne noise and vibration near high speed rail lines with variable soils Soil Dyn Earthq Eng 66 2014 2014 78 88 10.1016/j.soildyn.2014.06.021
Connolly, DP, Kouroussis, G, Fan, W, Percival, M, Giannopoulos, A, Woodward, PK, et al. An experimental analysis of embankment vibrations due to high speed rail. In: Proceedings of the 12th International Railway Engineering Conference; 2013.
