Jingxiao Liu
ABSTRACT
The objective of my thesis work is to develop physics-guided data-driven approaches for drive-by bridge health monitoring (BHM) that are scalable and eliminate the need of acquiring training data from every bridge. BHM allows us to detect bridge damage in earlier stages, which is essential for preventing more severe damage and collapses that may lead to significant business and human losses. Using vibrations from drive-by vehicles for BHM has various advantages, such as: economical and no need for on-site maintenance of equipment on bridges. However, many such approaches face analysis challenges for monitoring multiple bridges because 1) they either require labeled data from each bridge, which is expensive and time-consuming to collect, or 2) if we directly apply the supervised model trained for one bridge to other bridges, damage diagnostic accuracy could significantly reduce because of distribution mismatch between different bridges' data. In this work, I overcome the first challenge by leveraging physical insights about the vehicle-bridge interaction (VBI) to guide the data-driven approach and diagnose damage in a semi-supervised way. Also, I overcome the second challenge through a domain adversarial training and multi-task learning framework. The framework extracts features that are sensitive to damages and invariant across bridges to monitor multiple bridges without the need for training data from every bridge.
- Jingxiao Liu, Mario Bergés, Jacobo Bielak, James H Garrett, Jelena Kovačević, and Hae Young Noh. 2019. A damage localization and quantification algorithm for indirect structural health monitoring of bridges using multi-task learning. In AIP Conference Proceedings, Vol. 2102. AIP Publishing LLC, 090003.Google Scholar
- Jingxiao Liu, Siheng Chen, Mario Bergés, Jacobo Bielak, James H Garrett, Jelena Kovačević, and Hae Young Noh. 2020. Diagnosis algorithms for indirect structural health monitoring of a bridge model via dimensionality reduction. Mechanical Systems and Signal Processing 136 (2020), 106454.Google ScholarCross Ref
- Laurens van der Maaten and Geoffrey Hinton. 2008. Visualizing data using t-SNE. Journal of machine learning research 9, Nov (2008), 2579--2605.Google Scholar
- Y-B Yang, CW Lin, and JD Yau. 2004. Extracting bridge frequencies from the dynamic response of a passing vehicle. Journal of Sound and Vibration 272, 3--5 (2004), 471--493.Google ScholarCross Ref
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Scalable bridge health monitoring using drive-by vehicles: PhD forum abstract
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