Evaluation model and management strategy for reducing pollution caused by ship collision in coastal waters

Evaluation model and management strategy for reducing pollution caused by ship collision in coastal waters

This study addresses the Spatio-temporal associations of internal and external factors (e.g., ship type, flag registry, port inspections and season, etc.) with ship collisions in coastal waters. To prevent collision and subsequent pollution, effective identification of various potential risk factors...

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Bibliographic Details
Published in:Ocean & coastal management Vol. 203; p. 105446
Main Authors: Yu, Yao, Chen, Liming, Shu, Yaqing, Zhu, Wanying
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-04-2021
Subjects:
Association rules
Bayesian Spatio-temporal model
Pollution prevention
Risk factors
Ship collision
Ship collision
Bayesian Spatio-temporal model
Association rules
Pollution prevention
Risk factors
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Summary:This study addresses the Spatio-temporal associations of internal and external factors (e.g., ship type, flag registry, port inspections and season, etc.) with ship collisions in coastal waters. To prevent collision and subsequent pollution, effective identification of various potential risk factors related to collisions is important. Based on 10-year collision reports, a Bayesian Spatio-temporal (BS) model is developed to assess collision risk by taking into account space and time mutual influences. In this research, the research area including parts of North China, Korean Peninsula, and Japan, is categorized into three different risk levels of potential collision. An association rule mining algorithm is then developed to analyze the spatial-temporal mutual relationships of collision elements in neighbor regions. Corresponding association rules among different collision risks are revealed for different regions. The results show that small ship size, general cargo type, and spring or summer season have a strong association with the collisions occurred in high-risk regions, while large ship size in accordance with summer or winter season is remarkable in moderate-risk regions. It is also found that large ship size and tanker ship type are significant factors in low-risk areas. Finally, management strategies are proposed to help preventing ship collisions and reducing potential pollutions. [Display omitted] •The BS model is developed to evaluate collision risk in coastal waters.•Risk factors frequency is analyzed in different RCR regions.•Top 20 association rules in different RCR regions are identified and analyzed.•Management strategies based on association rules are proposed.
ISSN:0964-5691
1873-524X
DOI:10.1016/j.ocecoaman.2020.105446