Space and defence technology

Free tool reveals hidden ships in Danish waters

A new online tool developed at DTU makes it possible for anyone to track the movements of ships in Danish waters – including vessels attempting to hide.

The red dots on the map are potential “ghost ships” that, for various reasons, are not transmitting an AIS signal. Photo: Screenshot from OpenOceanWatch

Wednesday 03 June 2026

Morten Garly Andersen

Simon Koefoed Toft

Using satellite data, artificial intelligence and open maritime databases, a researcher from DTU Space has developed an online tool that makes it possible to track ship traffic in Danish waters. This also includes ships attempting to hide by switching off their so-called AIS transponders, which reveal their position.

Behind the project is Peder Heiselberg, a postdoc at DTU Space, who has developed the freely accessible platform OpenOceanWatch.

“We don’t always have the opportunity to keep track of what’s happening at sea. That’s why I wanted to create a tool where anyone can freely access and view activity in Danish waters,” says Peder Heiselberg.

All vessels detected by the system in the area are marked on a map. This includes ships that do not transmit the active AIS signal, which is normally used to display a ship’s identity, course and speed, in order to avoid collisions, amongst other things. When the system detects an unknown vessel without an identifiable signal, it is marked in red.

A quick glance at the map shows that there are several of these unidentifiable “ghost ships” in Danish waters. In other words, vessels that have no or have turned off their AIS transponders, which are mandatory for larger merchant ships, passenger ships and larger fishing vessels.

“These could, for example, be vessels involved in illegal fishing. However, not all vessels are legally required to have a transponder on board,” says Peder Heiselberg, pointing out that there is no requirement for AIS transponders for recreational sailors, for example.

Clicking on a red dot on the map gives access to a satellite image of the object the tool has identified as a vessel. Photo: Screenshot from OpenOceanWatch

Facts

About AIS

The Automatic Identification System, abbreviated to AIS, is a radio system that transmits information about a vessel’s name, position, course and speed.
The system is based on transponders that automatically and continuously receive and transmit AIS signals.
Under Danish law, all ships over 300 gross tonnes, all passenger ships and all fishing vessels over 15 metres must have an active AIS transponder.

Source: Danish Maritime Authority

Vessels that deliberately switch off or sail without an AIS signal are often described in the press as “dark ships” or “ghost ships”.

Ghost ships and sabotage

According to Peder Heiselberg, the tool can be used, among other things, to investigate incidents involving critical infrastructure such as internet cables, pipelines and offshore wind turbines.

“If a cable on the seabed is damaged, or something happens to an offshore installation, you can go in and see which vessels have been in the area, including those trying to hide. It provides a simple and quick overview of what has happened,” he says.

Monitoring Danish waters using satellite imagery is not in itself a novelty, and Danish authorities and services already have similar tools at their disposal.

But with this free tool, everyone will be able to keep track of who is sailing in Danish waters. And this could be relevant for curious members of the public, journalists and businesses, according to Peder Heiselberg:

“Specifically, it could be useful in, for example, insurance matters. But there could be all sorts of reasons to take an interest in who is sailing in our waters,” he says.

“It is only in recent years, particularly following the sabotage of Nord Stream 2, that we have truly realised that the threat to, for example, critical Danish infrastructure is real. In these circumstances, I think it is exciting that everyone now has the opportunity to keep track of what is happening in our waters,” explains Peder Heiselberg.

Trained to recognise ships from space

The artificial intelligence behind the tool has been trained on thousands of satellite images and objects and can therefore distinguish between, for example, ships, drilling platforms, waves and other features at sea.

In this way, the system can identify a vessel even when it is attempting to operate without visible identification.

The system automatically cross-references the satellite observations with open databases of ships’ AIS signals. If there is a match, it is marked in green as verified traffic. If there is no match, it is marked in red. In cases where an AIS signal is present, but satellite photos do not show a ship, it is marked in yellow.

Although the tool has been trained on a vast array of different ships and satellite images, it can make errors, just as there may be errors in the open databases it utilises. A red marking cannot therefore be said with certainty to be a ‘ghost ship’.

The project stems from Peder Heiselberg’s PhD work and has been further developed with support from DTU Skylab through a Discovery Grant, which enables researchers to test and refine new ideas.

FActs

DTU in space

DTU is a key player in international space research and collaborates with, among others, ESA and NASA on a wide range of missions and the development of new technology.
At DTU Space, around 250 staff members work on areas including climate and Earth observation, security-related surveillance, exploration of the universe and the development of advanced space technology. The research also generates technologies for use on Earth – for example, in health technology and airport security.
The space sector has gained increasing strategic importance for security, surveillance and access to critical data – particularly in the Arctic and the Baltic Sea and in relation to European independence.
Consequently, in 2026, DTU launched a five-year investment of over DKK 2 billion in the space and defence sectors, including DKK 500 million for research infrastructure, which comprises, among other things, a new research building.

Contact

Peder Heiselberg Postdoc Department of Space Research and Space Technology ptrhsb@dtu.dk