This project explores the operation, use and relationships between ports in the UK at a macro level and the behaviour and operational characteristics of ships at a micro level. Specifically we explore ship travelling behaviours, traffic at ports and related factors, port capacity utilisation, national and international port relationships and inbound ship delays.
- Christopher Bonham
- Alex Noyvirt
- Jacob Thomas
- Ioannis Tsalamanis
- Sonia Williams
The maritime freight industry is of critical importance to the economic output of the UK, with almost half a billion tonnes of freight being handled by UK ports in 2016. The Freight Transportation Association estimate that delays on both side of the Channel cost the UK logistics industry £750,000 a day. As the demands upon shipping freight are likely to increase in the future, a more in-depth understanding of the UK maritime shipping industry becomes increasingly more important.
This project explores the operation, use and relationships between ports in the UK at a macro level and the behaviour and operational characteristics of ships at a micro level, specifically:
- national and international relationships
- traffic at ports and related factors
- inbound delays
- capacity utilisation
Two sources of data are utilized:
- Automatic Identification System (AIS). AIS data records the position, speed, heading, bearing and rate of turn for each ship, at frequent time intervals throughout its voyage
- Consolidated European Reporting System (CERS). CERS data is collected at a higher level and records details such as destination port and expected time of arrival for the voyage of each ship
The main outputs of this project are:
- Processing pipeline of big data containing location of ships and reports containing itinerary information
- Port statistics based on several criteria
- Port relationships between UK and international ports
- Classification of ship travelling behaviour
- Prediction models for delayed arrivals of freight ships
- Development of Scala functions to decode, sort, filter and extract AIS messages
- Visualisations of port statistics and network analysis
- Unsupervised machine learning algorithms to classify the ships’ moving behaviour
- Supervised machine learning algorithms to predict if a freight ship is going to arrive delayed
- Maritime and Coastguard Agency (MCA)
- Department for International Trade (DIT)
Code and outputs
Related and existing work
- September 2017 Project started
- June 2018 Project finished
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