Abstract
The increasing availability of big Automatic Identification Systems (AIS) sensor data offers great opportunities to track ship activities and mine spatial-temporal patterns of ship traffic worldwide. This research proposes a data integration approach to construct Global Shipping Networks (GSN) from massive historical ship AIS trajectories in a completely bottom-up way. First, a DBSCAN (Density-Based Spatial Clustering of Applications with Noise) algorithm is applied to temporally identify relevant stop locations, such as marine terminals and their associated events. Second, the semantic meanings of these locations are obtained by mapping them to real ports as identified by the World Port Index (WPI). Stop events are leveraged to develop travel sequences of any ship between stop locations at multiple scales. Last, a GSN is constructed by considering stop locations as nodes and journeys between nodes as links. This approach generates different levels of shipping networks from the terminal, port, and country levels. It is illustrated by a case study that extracts country, port, and terminal level Global Container Shipping Networks (GCSN) from AIS trajectories of more than 4000 container ships in 2015. The main features of these GCSNs and the limitations of this work are finally discussed.
Highlights
Shipping is an efficient and environmental-friendly transportation mode for long-distance transport of large quantity of goods [1]
The objective of our research is to develop a multi-scale and hierarchical structure applied to large Automatic Identification Systems (AIS) data in order to generate global shipping networks and terminal-level networks
The step is to obtain the semantic information of the selected terminals by mapping these terminals to its related ports and countries based on the World Port Index (WPI) and Global Administrative Areas (GADM) reference datasets, which are publicly accessible
Summary
Shipping is an efficient and environmental-friendly transportation mode for long-distance transport of large quantity of goods [1]. It plays an important role in promoting international trade. Shipping schedule tables of 24 major carriers have been used to examine the spatial pattern and hub-spoke system of global shipping [3]. These schedules are notably incomplete and may not completely reflect ship delays, re-routing and void sailings [4]. Another way to construct a shipping network relies on the port
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