Transformer-enhanced traffic load simulation for wear evaluation of bridge expansion joint
Timely wear evaluation is crucial in maintaining the functionality of bridge expansion joints (BEJs), ultimately ensuring the safety of bridges. Despite the significance of traffic load simulation (TLS) in simulation-based evaluation methods, existing TLS approaches face challenges in accurately mod...
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sg-ntu-dr.10356-1787062024-07-05T15:33:18Z Transformer-enhanced traffic load simulation for wear evaluation of bridge expansion joint Dong, Yiqing Pan, Yue Wang, Dalei Chen, Airong School of Civil and Environmental Engineering Engineering Bridge expansion joints Wear evaluation Timely wear evaluation is crucial in maintaining the functionality of bridge expansion joints (BEJs), ultimately ensuring the safety of bridges. Despite the significance of traffic load simulation (TLS) in simulation-based evaluation methods, existing TLS approaches face challenges in accurately modeling in situ traffic flow at a high fidelity. This paper presents a novel methodology and its application for evaluating the wear performance of BEJs, employing a Transformer-enhanced TLS approach. Initially, a tailored dataset is crafted for data-driven car-following modeling, leveraging an established spatial-temporal traffic load monitoring system. High-fidelity TLS with a mean absolute error (MAE) of 0.1738 m/s is then achieved using Transformer modules equipped with an attention mechanism. To evaluate the final wear life of BEJs, transient dynamic analysis and a calibrated finite element model of the bridge are employed to extract cumulative displacement. Additionally, a surrogate model is developed to depict the relationship between the hourly traffic weight on the entire bridge deck and the cumulative displacement of BEJs, yielding an impressive R-squared value of 0.96619. Comparative results demonstrate the superior performance of our proposed TLS approach over other data-driven approaches, with the linear model derived from our TLS approach outperforming the model generated by the conventional Monte Carlo-based TLS approach. To conclude, our proposed TLS emerges as a comprehensive and precise methodology for the wear evaluation of BEJs. Published version This work was financially supported by the National Natural Science Foundation of China (grant nos. 52208198, 52238005, 52192663, and 51978514), National Key Research and Development Program of China (grant no. 2021YFF0501004), and Fundamental Research Funds for the Central Universities (grant no. 22120230569). 2024-07-03T01:04:34Z 2024-07-03T01:04:34Z 2024 Journal Article Dong, Y., Pan, Y., Wang, D. & Chen, A. (2024). Transformer-enhanced traffic load simulation for wear evaluation of bridge expansion joint. Structural Control and Health Monitoring, 2024, 6631877-. https://dx.doi.org/10.1155/2024/6631877 1545-2255 https://hdl.handle.net/10356/178706 10.1155/2024/6631877 2-s2.0-85188741265 2024 6631877 en Structural Control and Health Monitoring © 2024 Yiqing Dong et al. Tis is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Engineering Bridge expansion joints Wear evaluation |
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Engineering Bridge expansion joints Wear evaluation Dong, Yiqing Pan, Yue Wang, Dalei Chen, Airong Transformer-enhanced traffic load simulation for wear evaluation of bridge expansion joint |
| description |
Timely wear evaluation is crucial in maintaining the functionality of bridge expansion joints (BEJs), ultimately ensuring the safety of bridges. Despite the significance of traffic load simulation (TLS) in simulation-based evaluation methods, existing TLS approaches face challenges in accurately modeling in situ traffic flow at a high fidelity. This paper presents a novel methodology and its application for evaluating the wear performance of BEJs, employing a Transformer-enhanced TLS approach. Initially, a tailored dataset is crafted for data-driven car-following modeling, leveraging an established spatial-temporal traffic load monitoring system. High-fidelity TLS with a mean absolute error (MAE) of 0.1738 m/s is then achieved using Transformer modules equipped with an attention mechanism. To evaluate the final wear life of BEJs, transient dynamic analysis and a calibrated finite element model of the bridge are employed to extract cumulative displacement. Additionally, a surrogate model is developed to depict the relationship between the hourly traffic weight on the entire bridge deck and the cumulative displacement of BEJs, yielding an impressive R-squared value of 0.96619. Comparative results demonstrate the superior performance of our proposed TLS approach over other data-driven approaches, with the linear model derived from our TLS approach outperforming the model generated by the conventional Monte Carlo-based TLS approach. To conclude, our proposed TLS emerges as a comprehensive and precise methodology for the wear evaluation of BEJs. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Dong, Yiqing Pan, Yue Wang, Dalei Chen, Airong |
| format |
Article |
| author |
Dong, Yiqing Pan, Yue Wang, Dalei Chen, Airong |
| author_sort |
Dong, Yiqing |
| title |
Transformer-enhanced traffic load simulation for wear evaluation of bridge expansion joint |
| title_short |
Transformer-enhanced traffic load simulation for wear evaluation of bridge expansion joint |
| title_full |
Transformer-enhanced traffic load simulation for wear evaluation of bridge expansion joint |
| title_fullStr |
Transformer-enhanced traffic load simulation for wear evaluation of bridge expansion joint |
| title_full_unstemmed |
Transformer-enhanced traffic load simulation for wear evaluation of bridge expansion joint |
| title_sort |
transformer-enhanced traffic load simulation for wear evaluation of bridge expansion joint |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/178706 |
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1806059851766300672 |