Machine learning for vessel trajectories using compression,alignments and domain knowledge |
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Authors: | Gerben Klaas Dirk de Vries Maarten van Someren |
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Affiliation: | 1. European Commission, Joint Research Centre (JRC), Directorate Space, Security & Migration, Demography, Migration & Governance Unit, Via Enrico Fermi 2749, 20127 Ispra (VA), Italy;2. Italian Coast Guard Headquarters, Via dell’Arte 16, 00144 Rome, Italy |
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Abstract: | In this paper we present a machine learning framework to analyze moving object trajectories from maritime vessels. Within this framework we perform the tasks of clustering, classification and outlier detection with vessel trajectory data. First, we apply a piecewise linear segmentation method to the trajectories to compress them. We adapt an existing technique to better retain stop and move information and show the better performance of our method with experimental results. Second, we use a similarity based approach to perform the clustering, classification and outlier detection tasks using kernel methods. We present experiments that investigate different alignment kernels and the effect of piecewise linear segmentation in the three different tasks. The experimental results show that compression does not negatively impact task performance and greatly reduces computation time for the alignment kernels. Finally, the alignment kernels allow for easy integration of geographical domain knowledge. In experiments we show that this added domain knowledge enhances performance in the clustering and classification tasks. |
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