With real time vessel surveillance data now becoming available at an increasing rate, there is a growing interest in applications that can forecast future vessel positions and routes, especially in congested and busy areas. Since vessels move in “free space”, a prerequisite to effectively forecasting vessels' future locations is accurately discovering representative tracks (common paths followed by several vessels). Towards this direction, this work introduces a novel data driven framework that is capable of detecting spatial representations of complete trajectories (from port to port) from massive Automatic Identification System (AIS) datasets. Along these lines, we present a novel approach for forecasting representative tracks from noisy ...
Trajectory analysis is one of the most actively researched areas of spatio-temporal databases. Explo...
Automatic identification system (AIS) is a vessel radio navigation equipment that has been determine...
Automatic identification systems (AISs) serve as a complement to radar systems, and they have been i...
This paper introduces two data-driven approaches for vessel trajectory prediction based on AIS data:...
This thesis develops a procedure to estimate the probability distribution of the next destination a ...
Understanding maritime traffic patterns is key to Maritime Situational Awareness applications, in pa...
Shipping is one of the major transportation approaches around the world. With the growing demand for...
The Intelligence, Surveillance, and Reconnaissance (ISR) community is interested in developing a mod...
The objective of this research is to develop a method for predicting the future behavior of ships an...
Automatic Identification System (AIS) data represents a rich source of information about maritime tr...
With an ever-increasing number of vessels at sea, the modelling, analysis and visualisation of marit...
The oceans are a source of an impressive mixture of complex data that could be used to uncover relat...
Analysts and security experts seek automated algorithms to predict future behavior of vessels at sea...
We propose a geographical visualization to support operators of coastal surveillance systems and dec...
Progressively huge amounts of data, tracking vessels during their voyages across the seas, are becom...
Trajectory analysis is one of the most actively researched areas of spatio-temporal databases. Explo...
Automatic identification system (AIS) is a vessel radio navigation equipment that has been determine...
Automatic identification systems (AISs) serve as a complement to radar systems, and they have been i...
This paper introduces two data-driven approaches for vessel trajectory prediction based on AIS data:...
This thesis develops a procedure to estimate the probability distribution of the next destination a ...
Understanding maritime traffic patterns is key to Maritime Situational Awareness applications, in pa...
Shipping is one of the major transportation approaches around the world. With the growing demand for...
The Intelligence, Surveillance, and Reconnaissance (ISR) community is interested in developing a mod...
The objective of this research is to develop a method for predicting the future behavior of ships an...
Automatic Identification System (AIS) data represents a rich source of information about maritime tr...
With an ever-increasing number of vessels at sea, the modelling, analysis and visualisation of marit...
The oceans are a source of an impressive mixture of complex data that could be used to uncover relat...
Analysts and security experts seek automated algorithms to predict future behavior of vessels at sea...
We propose a geographical visualization to support operators of coastal surveillance systems and dec...
Progressively huge amounts of data, tracking vessels during their voyages across the seas, are becom...
Trajectory analysis is one of the most actively researched areas of spatio-temporal databases. Explo...
Automatic identification system (AIS) is a vessel radio navigation equipment that has been determine...
Automatic identification systems (AISs) serve as a complement to radar systems, and they have been i...