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Vessel Trajectory Prediction Using Historical Automatic Identification System Data

Danial Alizadeh, Ali Asghar Alesheikh, Mohammad Sharif

2020Journal of Navigation81 citationsDOI

Abstract

For maritime safety and security, vessels should be able to predict the trajectories of nearby vessels to avoid collision. This research proposes three novel models based on similarity search of trajectories that predict vessels' trajectories in the short and long term. The first and second prediction models are, respectively, point-based and trajectory-based models that consider constant distances between target and sample trajectories. The third prediction model is a trajectory-based model that exploits a long short-term memory approach to measure the dynamic distance between target and sample trajectories. To evaluate the performance of the proposed models, they are applied to a real automatic identification system (AIS) vessel dataset in the Strait of Georgia, USA. The models' accuracies in terms of Haversine distance between the predicted and actual positions show relative prediction error reductions of 40·85% for the second model compared with the first model and 23% for the third model compared with the second model.

Topics & Concepts

TrajectoryAutomatic Identification SystemComputer scienceIdentification (biology)Sample (material)Similarity (geometry)Measure (data warehouse)Data miningTerm (time)Point (geometry)Artificial intelligenceMathematicsBotanyAstronomyGeometryChromatographyQuantum mechanicsBiologyChemistryImage (mathematics)PhysicsMaritime Navigation and SafetyOil Spill Detection and MitigationMaritime Security and History
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