Application of Nakamura’s Model to Describe the Delayed Increase in Lateral Vibration of Footbridges
Publication: Journal of Engineering Mechanics
Volume 139, Issue 12
Abstract
Nakamura’s model is proposed to describe lateral vibrations of a footbridge induced by pedestrians. The model is found to be a slow-fast system if the number of pedestrians on a footbridge increases slowly. Then, based on the delayed bifurcation theory, Nakamura’s model can be used to describe the delayed increase in the lateral vibration of the footbridge. The critical number of pedestrians on the footbridge is calculated by using the delayed bifurcation theory to quantitatively demonstrate our analysis. By comparison with a previously obtained formula, the rationality of the authors’ formula for predicting the critical number of pedestrians is illustrated. Based on the authors’ formula, the experimental parameter used in the previously obtained formula does not seem to be always applicable to other bridges. Based on Nakamura’s model, the value of the parameter seems to be affected mainly by the properties of the pedestrians on the bridge rather than those of the bridge.
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Acknowledgments
This work was supported by the National Natural Science Foundation of China (Grant Nos. 11002103, 11102038, 51178365, and 61375012), the Hong Kong Polytechnic University (Project No. A-PJ03), the State Key Program of National Natural Science of China (Grant No. 11032009), and the Shanghai Leading Academic Discipline Project (No. B302).
References
Blekherman, A. N. (2005). “Swaying of pedestrian bridges.” J. Bridge Eng., 10(2), 142–150.
Dallard, P., et al. (2001a). “London Millennium Bridge: Pedestrian-induced lateral vibration.” J. Bridge Eng., 6(6), 412–417.
Dallard, P., et al. (2001b). “The London Millennium Footbridge.” Struct. Eng., 79(22), 17–33.
Fujino, Y., Pacheco, B. M., Nakamura, S., and Warnitchai, P. (1993a). “Synchronization of human walking observed during lateral vibration of a congested pedestrian bridge.” Earthq. Eng. Struct. Dynam., 22(9), 741–758.
Fujino, Y., Warnitchai, P., and Pacheco, B. M. (1993b). “An experimental and analytical study of autoparametric resonance in a 3 DOF model of a cable-stayed-beam.” Nonlinear Dyn., 4(2), 111–138
Lobry, C. (1991). “Dynamic bifurcations.” Lecture notes in mathematics, E. Benoit, ed., Vol. 1493, Springer, Berlin, 1–13.
Macdonald, J. H. G. (2009). “Lateral excitation of bridges by balancing pedestrians.” Proc., Royal Society A, 465(2104), 1055–1073
Nakamura, S. (2004). “Model for lateral excitation of footbridges by synchronous walking.” J. Struct. Eng., 130(1), 32–37.
Nakamura, S., and Kawasaki, T. (2009). “A method for predicting the lateral girder response of footbridges induced by pedestrians.” J. Constr. Steel Res., 65(8–9), 1705–1711.
Neishtadt, A. I. (1987). “On delayed stability loss under dynamic bifurcations, part I.” Differ. Equ., 23(12), 2060–2067.
Neishtadt, A. I. (1988). “On delayed stability loss under dynamic bifurcations, part II.” Differ. Equ., 24(2), 226–233.
Newland, D. E. (2004). “Pedestrian excitation of bridges.” J. Mech. Eng. Sci., 218(5), 477–492.
Piccardo, G., and Tubino, F. (2008). “Parametric resonance of flexible footbridges under crowd-induced lateral excitation.” J. Sound Vibrat., 311(1–2), 353–371.
Roberts, T. M. (2003). “Synchronised pedestrian excitation of footbridges.” Proc. of the ICE: Bridge Eng., 156(4), 155–160.
Roberts, T. M. (2005a). “Lateral pedestrian excitation of footbridges.” J. Bridge Eng., 10(1), 107–112.
Roberts, T. M. (2005b). “Probabilistic pedestrian lateral excitation of bridges.” Proc. of the ICE: Bridge Eng., 158(2), 53–61.
Shishkova, M. A. (1973). “Study of a system of differential equations with a small parameter at the highest derivatives.” Dokl. Akad. Nauk SSSR, 209(1973), 576–579.
Strogatz, S., Abrams, D., McRobie, A., Eckhardt, B., and Edward, O. (2005). “Crowd synchrony on the Millennium Bridge.” Nature, 483(7387), 43–44.
Zhen, B., Xie, W. P., and Xu, J. (2011). “Nonlinear analysis for the lateral vibration of footbridges induced by pedestrians.” J. Bridge Eng., 18(2), 122–130.
Zheng, Y. G., and Wang, Z. H. (2010). “Delayed Hopf bifurcation in time-delayed slow-fast systems.” Sci. Chin.Technol. Sci., 53(3), 656–663.
Zivanovic, S., Pavic, A., and Reynolds, P. (2005). “Vibration serviceability of footbridges under human-induced excitation: A literature review.” J. Sound Vibrat., 279(1–2), 1–74.
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© 2013 American Society of Civil Engineers.
History
Received: Jan 5, 2012
Accepted: Dec 11, 2012
Published online: Dec 13, 2012
Published in print: Dec 1, 2013
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