An ensemble method for investigating maritime casualties resulting in pollution occurrence: data augmentation and feature analysis
Timely prediction of maritime casualties resulting in pollution occurrence remains unsolved in academia, as the significant data imbalance between non-polluting and polluting casualties poses a challenge to prediction efficacy. This study proposes an ensemble method for predicting polluting maritime...
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sg-ntu-dr.10356-1807462024-10-22T07:59:23Z An ensemble method for investigating maritime casualties resulting in pollution occurrence: data augmentation and feature analysis Li, Duowei Wong, Yiik Diew Chen, Tianyi Wang, Nanxi Yuen, Kum Fai School of Civil and Environmental Engineering Department of Civil and Environmental Engineering, NUS Engineering Maritime casualty Maritime pollution Timely prediction of maritime casualties resulting in pollution occurrence remains unsolved in academia, as the significant data imbalance between non-polluting and polluting casualties poses a challenge to prediction efficacy. This study proposes an ensemble method for predicting polluting maritime casualties and exploring the contributing features to pollution. In the data preprocessing phase, key features related to casualties and vessels are extracted and encoded into model variables; in the data augmentation phase, Variational Autoencoder is employed to generate synthetic samples from the minor class, effectively mitigating the impact from data imbalance; and in the pollution indicator classification phase, machine learning models are trained on the balanced dataset to label a casualty as “polluting” or “non-polluting”. A dataset containing 25,414 worldwide maritime casualties from 2013 to 2023 is utilized for method validation. Several state-of-the-art data balancing techniques serve as baselines for comparison with the VAE on the quality of generated synthetic data. The model trained on the VAE dataset achieves the most satisfactory performances, demonstrating the superiority of VAE in augmenting data quantity and diversity. “Casualty cause”, “Vessel age” and “Vessel type” are revealed as the top three contributing features to pollution. Several insights are discussed for precautionary measures and policy development. Singapore Maritime Institute (SMI) This work was supported by “Safety 4.0: AI-Driven Ship Safety Management System” granted by Singapore Maritime Institute (SMI), with grant number SMI-2023-MTP-03. 2024-10-22T07:59:23Z 2024-10-22T07:59:23Z 2024 Journal Article Li, D., Wong, Y. D., Chen, T., Wang, N. & Yuen, K. F. (2024). An ensemble method for investigating maritime casualties resulting in pollution occurrence: data augmentation and feature analysis. Reliability Engineering and System Safety, 251, 110391-. https://dx.doi.org/10.1016/j.ress.2024.110391 0951-8320 https://hdl.handle.net/10356/180746 10.1016/j.ress.2024.110391 2-s2.0-85200415122 251 110391 en SMI-2023-MTP-03 Reliability Engineering and System Safety © 2024 Elsevier Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies. |
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Engineering Maritime casualty Maritime pollution |
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Engineering Maritime casualty Maritime pollution Li, Duowei Wong, Yiik Diew Chen, Tianyi Wang, Nanxi Yuen, Kum Fai An ensemble method for investigating maritime casualties resulting in pollution occurrence: data augmentation and feature analysis |
| description |
Timely prediction of maritime casualties resulting in pollution occurrence remains unsolved in academia, as the significant data imbalance between non-polluting and polluting casualties poses a challenge to prediction efficacy. This study proposes an ensemble method for predicting polluting maritime casualties and exploring the contributing features to pollution. In the data preprocessing phase, key features related to casualties and vessels are extracted and encoded into model variables; in the data augmentation phase, Variational Autoencoder is employed to generate synthetic samples from the minor class, effectively mitigating the impact from data imbalance; and in the pollution indicator classification phase, machine learning models are trained on the balanced dataset to label a casualty as “polluting” or “non-polluting”. A dataset containing 25,414 worldwide maritime casualties from 2013 to 2023 is utilized for method validation. Several state-of-the-art data balancing techniques serve as baselines for comparison with the VAE on the quality of generated synthetic data. The model trained on the VAE dataset achieves the most satisfactory performances, demonstrating the superiority of VAE in augmenting data quantity and diversity. “Casualty cause”, “Vessel age” and “Vessel type” are revealed as the top three contributing features to pollution. Several insights are discussed for precautionary measures and policy development. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Li, Duowei Wong, Yiik Diew Chen, Tianyi Wang, Nanxi Yuen, Kum Fai |
| format |
Article |
| author |
Li, Duowei Wong, Yiik Diew Chen, Tianyi Wang, Nanxi Yuen, Kum Fai |
| author_sort |
Li, Duowei |
| title |
An ensemble method for investigating maritime casualties resulting in pollution occurrence: data augmentation and feature analysis |
| title_short |
An ensemble method for investigating maritime casualties resulting in pollution occurrence: data augmentation and feature analysis |
| title_full |
An ensemble method for investigating maritime casualties resulting in pollution occurrence: data augmentation and feature analysis |
| title_fullStr |
An ensemble method for investigating maritime casualties resulting in pollution occurrence: data augmentation and feature analysis |
| title_full_unstemmed |
An ensemble method for investigating maritime casualties resulting in pollution occurrence: data augmentation and feature analysis |
| title_sort |
ensemble method for investigating maritime casualties resulting in pollution occurrence: data augmentation and feature analysis |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180746 |
| _version_ |
1814777814718611456 |