References
- Beskou, N.D. and Theodorakopoulos, D.D., 2011. Dynamic effects of moving loads on road pavements: a review. Soil Dynamics and Earthquake Engineering, 31 (4), 547–567.
- Ding, H., Chen, L.-Q., and Yang, S.-P., 2012. Convergence of galerkin truncation for dynamic response of finite beams on nonlinear foundations under a moving load. Journal of Sound and Vibration, 331 (10), 2426–2442.
- Esen, I., 2019. Dynamic response of a functionally graded timoshenko beam on two-parameter elastic foundations due to a variable velocity moving mass. International Journal of Mechanical Sciences, 153, 21–35.
- Frýba, L., 2013. Vibration of solids and structures under moving loads. Berlin: Springer Science & Business Media.
- Ho, S.-H., Wong, Y.-D., and Chang, V.W.-C., 2014. Developing Singapore driving cycle for passenger cars to estimate fuel consumption and vehicular emissions. Atmospheric Environment, 97, 353–362.
- Huang, M.-H. and Thambiratnam, D.P., 2001. Deflection response of plate on winkler foundation to moving accelerated loads. Engineering Structures, 23 (9), 1134–1141.
- Huang, M.-H. and Thambiratnam, D.P., 2002. Dynamic response of plates on elastic foundation to moving loads. Journal of Engineering Mechanics, 128 (9), 1016–1022.
- Kargarnovin, M.H., et al., 2005. Response of beams on nonlinear viscoelastic foundations to harmonic moving loads. Computers & Structures, 83 (23), 1865–1877. Available from: http://www.sciencedirect.com/science/article/pii/S0045794905001136.
- Kim, S.-M., 2004. Buckling and vibration of a plate on elastic foundation subjected to in-plane compression and moving loads. International Journal of Solids Structures, 41 (20), 5647–5661.
- Kim, S.-M. and Mccullough, B.F.M., 2003. Dynamic response of plate on viscous winkler foundation to moving loads of varying amplitude. Engineering Structures, 25 (9), 1179–1188.
- Kim, S.-M. and Roesset, J.M., 1998. Moving loads on a plate on elastic foundation. Journal of Engineering Mechanics, 124 (9), 1010–1017.
- Knez, M., et al., 2014. The estimation of a driving cycle for celje and a comparison to other european cities. Sustainable Cities Society, 11, 56–60.
- Li, M., et al., 2013. Dynamic response of the rectangular plate subjected to moving loads with variable velocity. Journal of Engineering Mechanics, 140 (4), 06014001.
- Liang, X., et al., 2014. Semi-analytical solution for three-dimensional transient response of functionally graded annular plate on a two parameter viscoelastic foundation. Journal of Sound and Vibration, 333 (12), 2649–2663. Available from: http://www.sciencedirect.com/science/article/pii/S0022460X14000674.
- Lin, J. and Niemeier, D.A., 2002. An exploratory analysis comparing a stochastic driving cycle to california's regulatory cycle. Atmospheric Environment, 36 (38), 5759–5770.
- Lu, Z., et al., 2014. Vibrations of a plate on a two-parameter foundation subjected to moving rectangular loads of varying velocities. Journal of Vibroengineering, 16 (3), 1543–1554.
- Michaltsos, G.T., 2002. Dynamic behaviour of a single-span beam subjected to loads moving with variable speeds. Journal of Sound and Vibration, 258 (2), 359–372.
- Peng, X., Liu, Z.J., and Hong, J.W., 2006. Vibration analysis of a simply supported beam under moving mass with uniformly variable speeds. Journal of Engineering Mechanics, 23 (6), 25–29.
- Rao, S.S., 2007. Vibration of continuous systems. Hoboken, NJ: Wiley.
- Si, C., et al., 2018. Dynamic response analysis of rutting resistance performance of high modulus asphalt concrete pavement. Applied Sciences, 8 (12), 2701.
- Si, C., et al., 2019. Micro-mechanical analysis of high modulus asphalt concrete pavement. Construction and Building Materials, 220, 128–141.
- Snehasagar, G., Krishnanunni, C.G., and Rao, B.N., 2020. Dynamics of vehicle–pavement system based on a viscoelastic Euler–Bernoulli beam model. International Journal of Pavement Engineering, 21 (13), 1669–1682. doi:10.1080/10298436.2018.1562189.
- Sun, L., 2002. A closed-form solution of beam on viscoelastic subgrade subjected to moving loads. Computers & Structures, 80 (1), 1–8.
- Suzuki, S-I., 1977. Dynamic behaviour of a finite beam subjected to travelling loads with acceleration. Journal of Sound and Vibration, 55 (1), 65–70.
- Van Cauwelaert, F., Marc, S., and Jasienski, A., 2002. The general solution for a slab subjected to centre and edge loads and resting on a kerr foundation. International Journal of Pavement Engineering, 3 (1), 1–18. doi:10.1080/10298430290029894.
- Yan, K., 2005. Study on dynamic response of a thin plate on elastic foundation. Hangzhou: Zhejiang University.
- Yang, S., Chen, L., and Li, S., 2015. Dynamics of vehicle-road coupled system. Berlin: Springer.
- Yang, S., Li, S., and Lu, Y., 2010. Investigation on dynamical interaction between a heavy vehicle and road pavement. Vehicle System Dynamics, 48 (8), 923–944.
- Yang, S., Lu, Y., and Li, S., 2013a. An overview on vehicle dynamics. International Journal of Dynamics and Control, 1 (4), 385–395.
- Yang, Y., Ding, H., and Chen, L.-Q., 2013b. Dynamic response to a moving load of a timoshenko beam resting on a nonlinear viscoelastic foundation. Acta Mechanica Sinica, 29 (5), 718–727.
- Zaman, M., Taheri, M.R., and Alvappillai, A., 1991. Dynamic response of a thick plate on viscoelastic foundation to moving loads. International Journal for Numerical and Analytical Methods in Geomechanics, 15 (9), 627–647.
- Zhao, X.-D., Liu, Y., and Gong, W.-H., 2020. Analytical solution for one-dimensional electro-osmotic consolidation of double–layered system. Computers and Geotechnics, 122, 103496. Available from: http://www.sciencedirect.com/science/article/pii/S0266352X20300598.
- Zibdeh, H.S. and Abu-Hilal, M., 2003. Stochastic vibration of laminated composite coated beam traversed by a random moving load. Engineering Structures, 25 (3), 397–404.