Maritime Traffic Probabilistic Forecasting Based on Vessels' Waterway Patterns and Motion Behaviors

Maritime traffic prediction is critical for ocean transportation safety management. In this paper, we propose a novel knowledge assisted methodology for maritime traffic forecasting based on a vessel's waterway pattern and motion behavior. The vessel's waterway pattern is extracted through...

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Veröffentlicht in:	IEEE transactions on intelligent transportation systems 2017-11, Vol.18 (11), p.3122-3134
Hauptverfasser:	Zhe Xiao, Ponnambalam, Loganathan, Xiuju Fu, Wanbing Zhang
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Sprache:	eng
Schlagworte:	Artificial intelligence Data mining Forecasting knowledge discovery knowledge engineering marine transportation Planning Prediction algorithms Stability analysis Transportation
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container_title	IEEE transactions on intelligent transportation systems
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creator	Zhe Xiao Ponnambalam, Loganathan Xiuju Fu Wanbing Zhang
description	Maritime traffic prediction is critical for ocean transportation safety management. In this paper, we propose a novel knowledge assisted methodology for maritime traffic forecasting based on a vessel's waterway pattern and motion behavior. The vessel's waterway pattern is extracted through a proposed lattice-based DBSCAN algorithm that significantly reduces the problem scale, and its motion behavior is quantitatively modeled for the first time using kernel density estimation. The proposed methodology facilitates the knowledge extraction, storage, and retrieval, allowing for seamless knowledge transfer to support maritime traffic forecasting. By incorporating both the vessel's waterway pattern and motion behavior knowledge, our solution suggests a set of probable coordinates with the corresponding probability as the forecasting output. The proposed forecasting algorithm is capable of accurately predicting maritime traffic 5, 30, and 60 min ahead, while its computation can be efficiently completed in milliseconds for single vessel prediction. Owing to such a high computational efficiency, an extensive predictive analysis of hundreds of vessels has been reported for the first time in this paper. A web-based prototype platform is implemented for Singapore waters to demonstrate the solution's feasibility in a real-world maritime operation system. The proposed approaches can be generalized for other marine waters around the world.
doi_str_mv	10.1109/TITS.2017.2681810
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In this paper, we propose a novel knowledge assisted methodology for maritime traffic forecasting based on a vessel's waterway pattern and motion behavior. The vessel's waterway pattern is extracted through a proposed lattice-based DBSCAN algorithm that significantly reduces the problem scale, and its motion behavior is quantitatively modeled for the first time using kernel density estimation. The proposed methodology facilitates the knowledge extraction, storage, and retrieval, allowing for seamless knowledge transfer to support maritime traffic forecasting. By incorporating both the vessel's waterway pattern and motion behavior knowledge, our solution suggests a set of probable coordinates with the corresponding probability as the forecasting output. The proposed forecasting algorithm is capable of accurately predicting maritime traffic 5, 30, and 60 min ahead, while its computation can be efficiently completed in milliseconds for single vessel prediction. Owing to such a high computational efficiency, an extensive predictive analysis of hundreds of vessels has been reported for the first time in this paper. A web-based prototype platform is implemented for Singapore waters to demonstrate the solution's feasibility in a real-world maritime operation system. 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In this paper, we propose a novel knowledge assisted methodology for maritime traffic forecasting based on a vessel's waterway pattern and motion behavior. The vessel's waterway pattern is extracted through a proposed lattice-based DBSCAN algorithm that significantly reduces the problem scale, and its motion behavior is quantitatively modeled for the first time using kernel density estimation. The proposed methodology facilitates the knowledge extraction, storage, and retrieval, allowing for seamless knowledge transfer to support maritime traffic forecasting. By incorporating both the vessel's waterway pattern and motion behavior knowledge, our solution suggests a set of probable coordinates with the corresponding probability as the forecasting output. The proposed forecasting algorithm is capable of accurately predicting maritime traffic 5, 30, and 60 min ahead, while its computation can be efficiently completed in milliseconds for single vessel prediction. 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In this paper, we propose a novel knowledge assisted methodology for maritime traffic forecasting based on a vessel's waterway pattern and motion behavior. The vessel's waterway pattern is extracted through a proposed lattice-based DBSCAN algorithm that significantly reduces the problem scale, and its motion behavior is quantitatively modeled for the first time using kernel density estimation. The proposed methodology facilitates the knowledge extraction, storage, and retrieval, allowing for seamless knowledge transfer to support maritime traffic forecasting. By incorporating both the vessel's waterway pattern and motion behavior knowledge, our solution suggests a set of probable coordinates with the corresponding probability as the forecasting output. The proposed forecasting algorithm is capable of accurately predicting maritime traffic 5, 30, and 60 min ahead, while its computation can be efficiently completed in milliseconds for single vessel prediction. 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subjects	Artificial intelligence Data mining Forecasting knowledge discovery knowledge engineering marine transportation Planning Prediction algorithms Stability analysis Transportation
title	Maritime Traffic Probabilistic Forecasting Based on Vessels' Waterway Patterns and Motion Behaviors
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