Dynamic Response Analyses for Human-induced Lateral Vibration

Yoneda, Masahiro

Author(s):

Masahiro Yoneda

Medium:

conference paper

Language(s):

English

Conference:

35th Annual Symposium of IABSE / 52nd Annual Symposium of IASS / 6th International Conference on Space Structures: Taller, Longer, Lighter - Meeting growing demand with limited resources, London, United Kingdom, September 2011

Published in:

IABSE-IASS 2011 London Symposium Report

Year:

2011

Abstract:

Locomotion of animals, such as walking and running, is generated and controlled by the central nervous system called as the central pattern generator (CPG). Recently, the CPG framework has been utilized to develop locomotion controllers for autonomous walking robots. Therefore, a neural-oscillator model is investigated to grasp some useful information for human-induced lateral vibration on congested pedestrian bridges. The dynamic response analysis is also carried out taking into account the neural-oscillator model. Based on these results, it is confirmed that the neural- oscillator might be one of the effective models to explain the synchronization (the lock-in phenomenon) of a fairly high part of all pedestrians being on the bridge.

Keywords:

pedestrian bridge lateral vibration synchronization dynamic response analyses neural-oscillator

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Dynamic Response Analyses for Human-induced Lateral Vibration

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Dynamic Response Analyses for Human-induced Lateral Vibration

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