20 April 2016 Rapid cable tension estimation using dynamic and mechanical properties
Author Affiliations +
Abstract
Main tension elements are critical to the overall stability of cable-supported bridges. A dependable and rapid determination of cable tension is desired to assess the state of a cable-supported bridge and evaluate its operability. A portable smart sensor setup is presented to reduce post-processing time and deployment complexity while reliably determining cable tension using dynamic characteristics extracted from spectral analysis. A self-recording accelerometer is coupled with a single-board microcomputer that communicates wirelessly with a remote host computer. The portable smart sensing device is designed such that additional algorithms, sensors and controlling devices for various monitoring applications can be installed and operated for additional structural assessment. The tension-estimating algorithms are based on taut string theory and expand to consider bending stiffness. The successful combination of cable properties allows the use of a cable’s dynamic behavior to determine tension force. The tension-estimating algorithms are experimentally validated on a through-arch steel bridge subject to ambient vibration induced by passing traffic. The tension estimation is determined in well agreement with previously determined tension values for the structure.
Conference Presentation
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Rosana E. Martínez-Castro, Rosana E. Martínez-Castro, Shinae Jang, Shinae Jang, Richard E. Christenson, Richard E. Christenson, Bryan Campbell, Bryan Campbell, } "Rapid cable tension estimation using dynamic and mechanical properties", Proc. SPIE 9803, Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems 2016, 98030E (20 April 2016); doi: 10.1117/12.2219425; https://doi.org/10.1117/12.2219425
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