Data–Physics-Driven Multi-Point Hybrid Deformation Monitoring Model Based on Bayesian Optimization Algorithm–Light Gradient-Boosting Machine

Single-point deformation monitoring models fail to reflect the structural integrity of the concrete gravity dams, and traditional regression methods also have shortcomings in capturing complex nonlinear relationships among variables. To solve these problems, this paper develops a data–physics-driven...

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Vydané v:Water (Basel) Ročník 17; číslo 20; s. 2926
Hlavní autori: Song, Lei, Hu, Yating
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Basel MDPI AG 10.10.2025
Predmet:
Accuracy
Algorithms
Analysis
Artificial intelligence
Case studies
Comparative analysis
Concrete
Concrete dams
Dams
Deformation
Deformations (Mechanics)
Efficiency
Gravity
Machine learning
Mathematical optimization
Measurement
Mechanical properties
Neural networks
Physics
Safety and security measures
China
ISSN:2073-4441, 2073-4441
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Shrnutí:Single-point deformation monitoring models fail to reflect the structural integrity of the concrete gravity dams, and traditional regression methods also have shortcomings in capturing complex nonlinear relationships among variables. To solve these problems, this paper develops a data–physics-driven multi-point hybrid deformation monitoring model based on Bayesian Optimization Algorithm–Light Gradient-Boosting Machine (BOA-LightGBM). Building upon conventional single-point models, spatial coordinates are incorporated as explanatory variables to derive a multi-point deformation monitoring model that accounts for spatial correlations. Subsequently, the finite element method (FEM) is employed to simulate the hydrostatic component at each monitoring point under actual reservoir water levels. Finally, a hybrid model is constructed by integrating the derived mathematical expression, simulated hydrostatic components, and the BOA-LightGBM algorithm. A case study demonstrates that the proposed model effectively incorporates spatial deformation characteristics within dam sections and achieves satisfactory fitting and prediction accuracy compared to traditional single-point monitoring models. With further refinement and extension, the proposed modeling theory and methodology presented in this study can also provide valuable references for safety monitoring of other hydrostatic structures.
Bibliografia:ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:2073-4441
2073-4441
DOI:10.3390/w17202926