Jinhui Wang, Y. Zhou, Lei Zhuang, Long Shi, Shaogang Zhang
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A model of maritime accidents prediction based on multi-factor time series analysis
Effective maritime accident prediction will benefit both maritime safety management and the insurance industry. Due to the complex non-linearity and non-stationarity nature of maritime accident data, its prediction is still a challenge in the research field. An autoregressive integrated moving average with explanatory variables (ARIMAX) model was proposed to predict maritime accidents accurately, and a multi-factor accident prediction framework was developed. Additionally, the impacts of eight influencing factors on the number of maritime accidents were also investigated, and the predictions from the ARIMAX model were contrasted with those from earlier maritime accident prediction models, as well as autoregressive integrated moving average (ARIMA), back-propagation neural network (BPNN), and support vector regression (SVR). The findings imply that an increase in any one of the eight factors may increase the number of maritime accidents worldwide. The ARIMAX model, which incorporates accident factors, is accurate enough to estimate the number of global maritime accidents and outperforms the ARIMA, BPNN, and SVR models in terms of prediction precision and robustness. The ARIMAX model outperforms earlier marine accident prediction models and has good applicability.
期刊介绍:
The Journal of Marine Engineering and Technology will publish papers concerned with scientific and theoretical research applied to all aspects of marine engineering and technology in addition to issues associated with the application of technology in the marine environment. The areas of interest will include:
• Fuel technology and Combustion
• Power and Propulsion Systems
• Noise and vibration
• Offshore and Underwater Technology
• Computing, IT and communication
• Pumping and Pipeline Engineering
• Safety and Environmental Assessment
• Electrical and Electronic Systems and Machines
• Vessel Manoeuvring and Stabilisation
• Tribology and Power Transmission
• Dynamic modelling, System Simulation and Control
• Heat Transfer, Energy Conversion and Use
• Renewable Energy and Sustainability
• Materials and Corrosion
• Heat Engine Development
• Green Shipping
• Hydrography
• Subsea Operations
• Cargo Handling and Containment
• Pollution Reduction
• Navigation
• Vessel Management
• Decommissioning
• Salvage Procedures
• Legislation
• Ship and floating structure design
• Robotics Salvage Procedures
• Structural Integrity Cargo Handling and Containment
• Marine resource and acquisition
• Risk Analysis Robotics
• Maintenance and Inspection Planning Vessel Management
• Marine security
• Risk Analysis
• Legislation
• Underwater Vehicles
• Plant and Equipment
• Structural Integrity
• Installation and Repair
• Plant and Equipment
• Maintenance and Inspection Planning.
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