Automated vehicle identification using bridge vibrations

Version 1.01 (1.19 MB) by E. Cheynet
Vehicle-induced vibrations of a suspension bridge are used to automatically identify the mass, speed and arrival time of the vehicles.
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Updated 4 Aug 2020

Automated vehicle identification using bridge vibrations

Matlab algorithm to automatically identify key vehicle characteristics from vibrations data collected on a suspension bridge

View Automated vehicle identification using bridge vibrations on File Exchange

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Summary

The present code implements in Matlab the procedure used in ref [1] to automatically identify key vehicle characteristics from vibrations data collected on a suspension bridge. Nevertheless, the present numerical implementation has some minor differences with ref [1]. The bridge is modelled using a continuum model to reduce the computational cost associated with the identification of the vehicles [2,3]. Vehicles are modelled as moving-masses to reduce the computational cost. In the following, only the vertical motion of the main span is modelled. This algorithm is suited to bridges in remote areas with little traffic.

Content

The present submission contains:

  • A function eigenBridge.m that computes the modal parameters of a single-span suspension bridge.
  • A function filterMyData.m to extract the background component from the dynamic bridge response.
  • A function dynaResp_vehicle_TD.m that computes the bridge response to traffic loading (and wind loading, but this is not yet tested for wind + traffic).
  • A function findMass.m that aims to identify the mass fo the vehicles crossing the bridge.
  • A function findSpeed that aims to identify the sped fo the vehicles crossing the bridge.
  • A function findVehicleID.m that identify the number of vehicles crossing the bridge and their arrival time.
  • A function movingLoad.m that is used internally to compute the load of a moving mass on a beam.
  • A function getSamplingPara.m that is used to get the sampling frequency and time vector for the example file.
  • A function RMSE.m that simply computes the root-mean-square error.
  • A Matlab livescript Example1.mlx

References

[1] Cheynet, E., Daniotti, N., Jakobsen, J. B., & Snæbjörnsson, J. (2020). Improved long‐span bridge modeling using data‐driven identification of vehicle‐induced vibrations. Structural Control and Health Monitoring, volume 27, issue 9. https://doi.org/10.1002/stc.2574

[2] https://se.mathworks.com/matlabcentral/fileexchange/51815-calculation-of-the-modal-parameters-of-a-suspension-bridge

[3] E. Cheynet. ECheynet/EigenBridge v3.3. Zenodo, 2020, https://doi.org/10.5281/ZENODO.3817982.

Examples

Clustering and outlier analysis

Clustering and outlier analysis

identification of the vehicle speed and arrival time

Simultaneous identification of the vehicle speed and arrival time

Fitted and "measured" background bridge response

Fitted and "measured" background bridge response to the passage of vehicle

Fitted and "measured" dynamic bridge response

Fitted and "measured" dynamic bridge response

Cite As

Cheynet, Etienne, et al. “Improved Long-Span Bridge Modeling Using Data-Driven Identification of Vehicle-Induced Vibrations.” Structural Control and Health Monitoring, vol. 27, no. 9, Wiley, June 2020, doi:10.1002/stc.2574.

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MATLAB Release Compatibility
Created with R2019b
Compatible with R2017b and later releases
Platform Compatibility
Windows macOS Linux
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Version Published Release Notes
1.01

See release notes for this release on GitHub: https://github.com/ECheynet/trafficIdentification/releases/tag/v1.01

1.0

To view or report issues in this GitHub add-on, visit the GitHub Repository.
To view or report issues in this GitHub add-on, visit the GitHub Repository.