Full-scale identification of the wave forces exerted on a floating bridge using inverse methods and directional wave spectrum estimation

Øyvind Wiig Petersen, Ole Øiseth, Eliz-Mari Lourens

Research output: Contribution to journalArticleScientificpeer-review

4 Citations (Scopus)
4 Downloads (Pure)

Abstract

The dynamic behaviour of long-span bridges is governed by stochastic loads from typically ambient excitation sources. In real life, these loads cannot be measured directly at full scale. However, inverse methods can be utilised to identify these unknown forces using response measurements together with a numerical model of the relevant structure. This paper presents a case study of full-scale identification of the wave forces on the Bgsøysund bridge, a long-span pontoon bridge that has been monitored since 2013. First, a numerical model of the structure is formed, resulting in a reduced-order state-space model that takes into account the frequency-dependent hydrodynamic mass and damping from the fluid, based on fitting of rational transfer functions. Using acceleration data of the structure measured during several events of moderate and strong seas, the wave forces are identified using stochastic-deterministic methods for combined state and input estimation. In addition, a separate frequency-domain assessment of the wave forces is performed, in which the spectral density of the first-order wave forces is constructed from an estimated directional wave field model driven by wave elevation data. When compared in the frequency domain, the force estimates from the two approaches are of comparable magnitude. However, uncertainties in the assumptions and models behind the force estimates from the two approaches still play a significant role.

Original languageEnglish
Pages (from-to)708-726
Number of pages19
JournalMechanical Systems and Signal Processing
Volume120
DOIs
Publication statusPublished - 2019

Keywords

  • structural monitoring
  • wave force
  • force identification
  • floating bridge
  • wave field
  • Structural monitoring
  • Wave force
  • Floating bridge
  • Force identification
  • Wave field

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