Buffeting response of a suspension bridge (time domain)
Time-domain Buffeting response of a suspension bridge
The coupled dynamic response of a suspension bridge to wind turbulence is computed in the time domain
Summary
The lateral, vertical and torsional response of a suspension is computed in the time domain using computed turbulent velocity time histories. The simplified Bridge model of the Lysefjord Bridge [1] is considered for the modelling of the structure. Turbulence is modelled using the Kaimal model [2]. The quasi-steady theory, as well as the strip assumption, are used. Modal coupling between the lateral, vertical and torsional motions are accounted for in the time-domain model.
Content
The present submission contains:
- The function dynaRespTD.m that computes the bridge response in the time domain (Non-linear load + modal coupling)
- The function dynaResp_noCouplingTD.m that computes the bridge response in the time domain (linearised load + no modal coupling)
- An example file that compares the time-domain approach with the frequency domain approach
- Various functions used for the example file, including simulation of correlated wind histories [3], computation of the bridge modal parameters [4], computation of the bridge response in the frequency domain [5].
Any suggestion, comment or question is welcomed.
References
[1] Cheynet, E., Jakobsen, J. B., & Snæbjörnsson, J. (2016). Buffeting response of a suspension bridge in complex terrain. Engineering Structures, 128, 474-487.
[2] Kaimal, J. C., Wyngaard, J. C. J., Izumi, Y., & Coté, O. R. (1972). Spectral characteristics of surface‐layer turbulence. Quarterly Journal of the Royal Meteorological Society, 98(417), 563-589.
[3]https://se.mathworks.com/matlabcentral/fileexchange/68632-wind-field-simulation-the-fast-version
Citar como
E. Cheynet (2024). Buffeting response of a suspension bridge (time domain) (https://github.com/ECheynet/dynaRespTD/releases/tag/v2.4), GitHub. Recuperado .
Compatibilidad con la versión de MATLAB
Compatibilidad con las plataformas
Windows macOS LinuxCategorías
- MATLAB > Mathematics > Numerical Integration and Differential Equations >
- Physical Modeling > Simscape Multibody > Multibody Modeling >
Etiquetas
Agradecimientos
Inspiración para: Automated vehicle identification using bridge vibrations
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!Descubra Live Editor
Cree scripts con código, salida y texto formateado en un documento ejecutable.
No se pueden descargar versiones que utilicen la rama predeterminada de GitHub
Versión | Publicado | Notas de la versión | |
---|---|---|---|
2.4 | See release notes for this release on GitHub: https://github.com/ECheynet/dynaRespTD/releases/tag/v2.4 |
||
2.3 | See release notes for this release on GitHub: https://github.com/ECheynet/dynaRespTD/releases/tag/v2.3 |
||
2.2.0.0 | See release notes for this release on GitHub: https://github.com/ECheynet/dynaRespTD/releases/tag/v2.2 |
||
2.1 | See release notes for this release on GitHub: https://github.com/ECheynet/dynaRespTD/releases/tag/v2.1 |
||
2.0 | Added Github repository |
|
|
1.4 | The example file is simplified |
||
1.3 | The example is updated using a more time-consuming setup (more simulations, higher sampling frequency...) |
||
1.2 | New function added and example updated |
||
1.0.0 |