Footbridge vibrations and their sensitivity to pedestrian load modelling

Lars Pedersen*, Christian Frier

*Corresponding author for this work

Research output: Contribution to book/anthology/report/conference proceedingArticle in proceedingResearchpeer-review

Abstract

Pedestrians may cause vibrations in footbridges, and these vibrations may potentially be problematic from a footbridge serviceability point-of-view. Foreseeing (already at the design stage) unfit conditions is useful, and the present paper employs a probability-based methodology for predicting vibrational performance of a bridge. The methodology and the walking load model employed for calculation of bridge response accounts for the stochastic nature of the walking parameters of pedestrians (step frequency, step length etc.) and the end result is central statistical parameters of bridge response (quantiles of bridge acceleration) to the action of a pedestrian. The paper explores the impact that selected decisions made by the engineer in charge of computations have on the statistical parameters of the dynamic response of the bridge. The investigations involve Monte Carlo simulation runs as walking parameters are modelled as random variables and not as deterministic properties. Single-person pedestrian traffic is the load scenario considered for the investigations of the paper and numerical simulations of bridge accelerations are made for artificial but realistic footbridges.

Original languageEnglish
Title of host publicationDynamics of Civil Structures, Volume 2 - Proceedings of the 37th IMAC, A Conference and Exposition on Structural Dynamics, 2019
EditorsShamim Pakzad
Number of pages6
PublisherSpringer
Publication date2020
Pages225-230
ISBN (Print)9783030121143
DOIs
Publication statusPublished - 2020
Event37th IMAC, A Conference and Exposition on Structural Dynamics, 2019 - Orlando, United States
Duration: 28 Jan 201931 Jan 2019

Conference

Conference37th IMAC, A Conference and Exposition on Structural Dynamics, 2019
Country/TerritoryUnited States
CityOrlando
Period28/01/201931/01/2019
SeriesConference Proceedings of the Society for Experimental Mechanics Series
ISSN2191-5644

Bibliographical note

Publisher Copyright:
© Society for Experimental Mechanics, Inc. 2020.

Keywords

  • Footbridge vibrations
  • Serviceability-limit-state
  • Stochastic load models
  • Walking loads
  • Walking parameters

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