ESA title
Tallink Megastar ferry
Applications

Baltic ferry gathers data for self-aware sailing

16/11/2020 1511 views 24 likes
ESA / Applications / Satellite navigation

A day of ferry trips between Finland and Estonia became some of the best documented voyages in maritime history. Cameras, sensors, radio and satellite navigation receivers and even microphones recorded every instant of the crossings over the Baltic, gathering raw data for a new ESA-led project applying AI to the situational awareness of shipping – as an important step to full autonomy.

The Tallink shipping company’s new 212.2 m-long Megastar passenger and car ferry was fitted with data-gathering devices for its sailings on the busy stretch of sea between Helsinki and Tallinn.

Cameras installed
Cameras installed

The testing was overseen by a team from the Finnish Geospatial Research Institute (FGI) for an ESA project called Artificial Intelligence / Machine Learning Sensor Fusion for Autonomous Vessel Navigation, or Maritime AI-NAV for short.

“Our aim is to show how artificial intelligence (AI) can be applied to achieve autonomous situational awareness, so that a ship can reliably sense its own environment,” notes Sarang Thombre of FGI.

“Such autonomous systems would initially be deployed in support of human crews, for enhanced safety and efficiency – with crewless ships a much longer-term goal.

Satnav antenna
Satnav antenna

“The most experienced human ship captains will have the least trust in any single navigational device but will rather continuously cross reference between them. Similarly, our autonomous functionality will not be overly reliant on a single data source but combine and verify data from multiple sensors.

“Having gathered many gigabytes of data during our intiial August field campaign, then again in October with more days planned in December, we are applying the results to train and test our data-fusing algorithms. A follow-up seagoing test will then verify their performance in practice.”

Gathering data from ferry trips
Gathering data from ferry trips

The Maritime AI-NAV team plans to employ a variety of sensor types, including satellite navigation receivers –  also utilising of Europe’s Galileo system – monocular and stereo cameras, standard radar, ‘laser radar’ lidar and an array of microphones, along with 'Automatic Identification System' radio signals. These AIS signals transmit position, size and routing information of all vessels above a certain class, as well as fixed infrastructure such as oil rigs or wind turbines.

Dr Thombre adds: “Satellite navigation lets the ship know where it is in the sea, while the other sensors let it know what is around it, which is essential for identifying and avoiding any obstacles.

“The different data sources operate across a variety of ranges – so radar and AIS provide longer range detection out to the horizon, while cameras and lidars come into their own at shorter distances. Plus we had a trio of microphones aboard the Megastar, determining the angle of arrival of sound from other ships. The challenge now is to fully integrate all these sources using machine learning, to build up a holistic picture.”

Storing sensor data
Storing sensor data

Maritime AI-NAV is supported through ESA’s Navigation Innovation and Support Programme (NAVISP), working with European industry and academia to develop innovative navigation technology.

FGI is joined in the Maritime AI-NAV consortium by Aalto University’s Sensor Informatics and Medical Technology group and maritime IT startup Fleetrange Ltd.