Abstract
Understanding maritime traffic patterns is key to Maritime Situational Awareness applications, in particular, to classify and predict activities. Facilitated by the recent build-up of terrestrial networks and satellite constellations of Automatic Identification System (AIS) receivers, ship movement information is becoming increasingly available, both in coastal areas and open waters. The resulting amount of information is increasingly overwhelming to human operators, requiring the aid of automatic processing to synthesize the behaviors of interest in a clear and effective way. Although AIS data are only legally required for larger vessels, their use is growing, and they can be effectively used to infer different levels of contextual information, from the characterization of ports and off-shore platforms to spatial and temporal distributions of routes. An unsupervised and incremental learning approach to the extraction of maritime movement patterns is presented here to convert from raw data to information supporting decisions. This is a basis for automatically detecting anomalies and projecting current trajectories and patterns into the future. The proposed methodology, called TREAD (Traffic Route Extraction and Anomaly Detection) was developed for different levels of intermittency (i.e., sensor coverage and performance), persistence (i.e., time lag between subsequent observations) and data sources (i.e., ground-based and space-based receivers).
Highlights
Maritime transportation represents approximately 90% of global trade by volume, placing safety and security challenges as a high priority for nations across the globe
Automatic Identification System (AIS) is a self-reporting messaging system originally conceived for collision avoidance
When multiple receivers are connected into networks, certain challenges arise with data intermittency, resolving data redundancy received by multiple receivers, correcting errors in timestamps assigned by varying receivers and identifying tracks of vessels that erroneously share the message identifier
Summary
Maritime transportation represents approximately 90% of global trade by volume, placing safety and security challenges as a high priority for nations across the globe. When multiple receivers are connected into networks, certain challenges arise with data intermittency, resolving data redundancy received by multiple receivers, correcting errors in timestamps assigned by varying receivers and identifying tracks of vessels that erroneously share the message identifier This level of pre-processing is necessary to extract maritime motion patterns, especially at a global scale. The knowledge is extracted via an incremental learning approach, in order to dynamically adapt to evolving situations (e.g., maritime seasonal patterns, operational conditions or changing routing schemes) This allows maritime traffic to be characterized following a fully unsupervised learning strategy with no a priori information needed (i.e., using only raw AIS data). The vessel traffic and motion information, once extracted, can be alternatively exploited to perform ship route prediction at a given time This is the process of predicting ship movements well beyond any available positioning data, based on behaviors of past vessels on the same route.
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