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Abstract
Bridges are vital assets of transport infrastructure, systems, and communities. Damage characterization is critical in ensuring safety and planning adaptation measures. Nondestructive methods offer an efficient means towards assessing the condition of bridges, without causing harm or disruption to transport services, and these can deploy measurable evidence of bridge deterioration, e.g., deflections due to tendon loss. This paper presents an enhanced input-doubling technique and the Artificial Neural Network (ANN)-based cascade ensemble method for bridge damage state identification and is exclusively relying on small datasets, that are common in structural assessments. A new data augmentation scheme rooted in the principles of linearizing response surfaces is introduced, which significantly boosts the efficiency of intelligent data analysis when faced with limited volumes of data. Furthermore, improvements to a two-step ANN-based ensemble method, designed for solving the stated task, are presented. By adding the improved input-doubling methods as simple predictors in the first part of the cascade ensemble and optimizing it, we significantly boost accuracy (7%, 0.5%, and 8% based on R2 in predicting tendon losses for three critical zones that were defined across the deck of a real deteriorated prestressed balanced cantilever bridge). This improvement is strong evidence of the accuracy of the proposed method for the task at hand that is proven to be more accurate than other methods available in the international literature.
Original language | English |
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Article number | 24395 |
Number of pages | 10 |
Journal | Scientific Reports |
Volume | 14 |
DOIs | |
Publication status | Published - 17 Oct 2024 |
Bibliographical note
Ivan Izonin, Roman Tkachenko, and Roman Muzyka would like to acknowledge the support of the European Union’s Horizon Europe research and innovation program under grant agreement No 101138678, project ZEBAI (Innovative methodologies for the design of Zero-Emission and cost-effective Buildings enhanced by Artificial Intelligence). Stergios-Aristoteles Mitoulis would like to acknowledge the financial support of the UK Research and Innovation (UKRI) under the UK government’s Horizon Europe funding guarantee [grant agreement No: 10094812]. This is the funding guarantee for the European Union HORIZON-CL5-2023-D4-01-01 [grant agreement No: 101138678, DOI 10.3030/101138678] ZEBAI - Innovative methodologies for the design of Zero-Emission and cost-effective Buildings enhanced by Artificial Intelligence. Athanasia K. Kazantzi would like to acknowledge the financial support of the UK Research and Innovation (UKRI) under the UK government’s Horizon Europe funding guarantee [grant agreement No: 10062091]. This is the funding guarantee for the European Union HORIZON-MISS-2021-CLIMA-02 [grant agreement No: 101093939] RISKADAPT - Asset-level modelling of risks in the face of climate-induced extreme events and adaptation.Keywords
- Cascade ensemble
- Bridge
- Damage identification
- Data augmentation
- Limited data
- GRNN
- Input-doubling method
- Nondestructive methods
- Small data approach
- ANN
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Dive into the research topics of 'Enhanced ANN-based ensemble method for bridge damage characterization using limited dataset'. Together they form a unique fingerprint.Projects
- 2 Active
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ZEBAI: Innovative methodologies to design Zero-Emission and cost-effective Buildings based on Artificial Intelligence
Mitoulis, S. (Principal Investigator), Faramarzi, A. (Co-Investigator) & Freer, M. (Co-Investigator)
European Commission, UKRI Horizon Europe Underwriting – Innovate UK
1/01/24 → 31/12/28
Project: Research
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RISKADAPT - Asset Level Modelling of RISKs In the Face of Climate Induced Extreme Events and ADAPTtation
Mitoulis, S. (Principal Investigator)
UKRI Horizon Europe Underwriting – Innovate UK
1/01/23 → 31/12/25
Project: Other Government Departments