Abstract
Today, maritime transportation represents a substantial portion of international trade. Sustainable development of marine transportation requires systematic modeling and surveillance for maritime situational awareness. In this paper, we present an enhanced density-based spatial clustering of applications with noise (DBSCAN) method to model vessel behaviours based on trajectory point data. The proposed methodology enhances the DBSCAN clustering performance by integrating the Mahalanobis distance metric, which considers the correlation between the points representing vessel locations. This research proposes applying the clustering method to historical Automatic Identification System (AIS) data using an algorithm to generate a clustering model of the vessels’ trajectories and a model for detecting vessel trajectory anomalies, such as unexpected stops, deviations from regulated routes, or inconsistent speed. Further, an automatic and data-driven approach is proposed to select the initial parameters for the enhanced DBSCAN approach. Results are presented from two case studies using an openly available Gulf of Mexico AIS dataset as well as a Saint Lawrence Seaway and Great Lakes AIS licensed dataset acquired from ORBCOMM (a maritime AIS data provider). These research findings demonstrate the applicability and scalability of the proposed method for modeling more water regions, contributing to situational awareness, vessel collision prevention, safe navigation, route planning, and detection of vessel behaviour anomalies for auto-vessel development towards the sustainability of marine transportation.
Highlights
Safe navigation contributes to sustainability by reducing marine transportation accidents, which in turn protects the marine environment from exposure to hazardous chemicals leakage from vessel collisions
The enhanced density-based spatial clustering of applications with noise (DBSCAN) method maintains a high level of performance in terms of external evaluation metrics, compared to supervised algorithms like
The results indicate that the performance of the proposed approach highest in against the applications on marine transportation modeling
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. AIS data is abundant, standard, and consistent across the globe This makes AIS data suitable for global marine transportation traffic modeling and analysis. AIS data are collected by national organizations (e.g., Transport Canada, Canadian Hydrographic Service, and US Coast Guard) and commercial vendors, and are used for navigation safety, monitoring the location and characteristics of vessels in real-time, traffic modeling and analysis, and a variety of GIS-based applications. The model presented in this paper is to enhance the DBSCAN clustering method to solve for the aforementioned limits, and so that it can be applied to historical or real-time AIS data. This paper provides a possible process for analyzing, clustering, and modeling AIS data, supporting research into sustainable marine transportation and auto-vessel development.
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