| Title | Structural mechanism-based intelligent capacity prediction methods for concrete-encased CFST columns |
| Author | |
| Corresponding Author | Hou,Chao |
| Publication Years | 2023-03-01
|
| DOI | |
| Source Title | |
| ISSN | 0143-974X
|
| Volume | 202 |
| Abstract | Intelligent capacity prediction using machine learning (ML) approach has been gradually employed in structural design. Due to the presence of complicated interactions and multiple factors that strongly influence the capacity of concrete-encased concrete-filled steel tube (CFST), implementing ML methods for such members is expected to be more challenging and requires great care. However, most current ML approaches rely heavily on data laws and ignore the underlying physical mechanisms. The physical mechanisms of proposed models may thus fail due to over-fitting, especially when the training data is not broad enough to reflect the actual laws. In this study, an innovative framework is proposed for combining the data-driven models with physical mechanisms to estimate the axial compression capacity of concrete-encased CFST, in which the mechanism verification is integrated into the optimization of model hyperparameters. A refined finite element analysis (FEA) model is established and validated, based on which a comprehensive database consisting of 143 experimental and 1560 simulated samples is constructed. Six single ML algorithms and two ensemble methods are adopted and compared, with their underlying mechanisms further revealed by the shapley additive explanation (SHAP) approach. The results reveal that all models developed through proposed modeling method demonstrate overall good performance and reflect structural mechanisms to a fair extent, where the XGBoost model outperforms others in terms of accuracy and dispersion. Besides, inputting combined parameters instead of basic ones is found to effectively solve the multi-factor problems using ML approaches. |
| Keywords | |
| URL | [Source Record] |
| Language | English
|
| SUSTech Authorship | First
; Corresponding
|
| ESI Research Field | ENGINEERING
|
| Scopus EID | 2-s2.0-85145778685
|
| Data Source | Scopus
|
| Citation statistics |
Cited Times [WOS]:1
|
| Document Type | Journal Article |
| Identifier | http://kc.sustech.edu.cn/handle/2SGJ60CL/442648 |
| Department | Department of Ocean Science and Engineering |
| Affiliation | 1.Department of Ocean Science and Engineering,Southern University of Science and Technology,Shenzhen,518055,China 2.School of Civil Engineering,The University of Sydney,Sydney,2006,Australia 3.School of Traffic and Environment,Shenzhen Institute of Information Technology,Shenzhen,518172,China |
| First Author Affilication | Department of Ocean Science and Engineering |
| Corresponding Author Affilication | Department of Ocean Science and Engineering |
| First Author's First Affilication | Department of Ocean Science and Engineering |
| Recommended Citation GB/T 7714 |
Zhou,Xiao Guang,Hou,Chao,Peng,Jiahao,et al. Structural mechanism-based intelligent capacity prediction methods for concrete-encased CFST columns[J]. JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH,2023,202.
|
| APA |
Zhou,Xiao Guang,Hou,Chao,Peng,Jiahao,Yao,Guo Huang,&Fang,Zhengzhou.(2023).Structural mechanism-based intelligent capacity prediction methods for concrete-encased CFST columns.JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH,202.
|
| MLA |
Zhou,Xiao Guang,et al."Structural mechanism-based intelligent capacity prediction methods for concrete-encased CFST columns".JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH 202(2023).
|
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