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Chen, H, Feng, Z, Liu, Y, Chen, B, Deng, T, Qin, Y and Xu, W (2023) Multiobjective Optimization of a 3D Laser Scanning Scheme for Engineering Structures Based on RF-NSGA-II. Journal of Construction Engineering and Management, 149(02).
Costa, S, Carvalho, M S, Pimentel, C and Duarte, C (2023) A Systematic Literature Review and Conceptual Framework of Construction Industrialization. Journal of Construction Engineering and Management, 149(02).
Salarian, A A, Etemadfard, H, Rahimzadegan, A and Ghalehnovi, M (2023) Investigating the Role of Clustering in Construction-Accident Severity Prediction Using a Heterogeneous and Imbalanced Data Set. Journal of Construction Engineering and Management, 149(02).
- Type: Journal Article
- Keywords: Construction accident analysis; Heterogeneity; Class imbalance; Oversampling; Clustering;
- ISBN/ISSN: 0733-9364
- URL: https://doi.org/10.1061/(ASCE)CO.1943-7862.0002406
- Abstract:
Despite remarkable advances in the construction industry, it is still among the most hazardous industries; accidents occur in the construction industry with different severity levels. Construction accident data sets are available for analysis, but they face heterogeneity and class imbalance issues. Multitudinous complexities and uncertainties in construction projects result in heterogeneity; this leads to poor predictive performance of machine learning algorithms. Class imbalance issues arise because accidents occur at different severities with unequal distribution, producing biased prediction results. This study aimed to assess the impact of clustering on construction accident analysis when a data set is heterogeneous and imbalanced and to take a step toward making incidents more predictable. Accidents were predicted following four data preparation approaches: unmodified, balanced, clustered and clustered + balanced. The