Visualization: Sky-watch Ltd.

New drone to ensure safer demining

Monday 19 Dec 16

Contact

Arne Døssing Andreasen
Senior Researcher
DTU Space
+45 45 25 97 73
Researchers at DTU intend to develop a drone with magnetometers capable of mapping mines in former war zones, which will make demining more efficient and less dangerous. The project has received DKK 11 million from Innovation Fund Denmark.

Mines are usually made of magnetic steel, and the search for mines therefore often involves ‘magnetometers’—instruments capable of measuring minor magnetic deviations in the subsurface and thereby localizing the mines.

“The plan is for our drone and its unique magnetometer module to make demining more precise than the current method of using off-road vehicles on land and special divers in coastal areas. It will also minimize the risk of injuries for the people involved, as the drone can be operated from a safe position outside the mined areas,” explains Arne Døssing, Senior Research, DTU Space, who heads the project of developing the new technology.

"It will minimize the risk of injuries for the people involved, as the drone can be operated from a safe position outside the mined areas."
Senior Researcher Arne Døssing, DTU Space

He also believes that the new demining system could reduce the costs and time of mapping the presence of mines by more than 50 per cent.

A unique system

Arne Døssing is the originator of the idea to develop the new demining system consisting of a newly developed drone type with a frame installed underneath it, which will be specially developed by DTU Space researchers. The frame is referred to as a ‘magnetometer bird’, as the magnetometer is embedded in the frame, which is attached to the drone and hangs approx. 5-10 metres below it.

“It will be the first drone in the world to fly with a ‘bird’ underneath it. This construction is absolutely necessary to ensure the ultra-sensitive magnetometers are as close to the surface as possible, at the same time as minimizing exposure to magnetic disturbances from other instruments and from the flying drone,” says Arne Døssing.

For the same reason, the equipment designed to measure the exact position of the drone—and thus of the detected mines—is installed in the drone rather than in the ‘bird’. This takes place in close collaboration between DTU researchers and the Danish drone company Sky-Watch A/S.

The drone itself is also an innovation. It has been developed by Sky-Watch, and in addition to the ability to fly like a regular aircraft, it allows for vertical take-off and landing in the same way as a helicopter.

Illustration: DTU Space Illustration: Arne Døssing Andreasen, DTU Space.

Great interest in efficient demining

Initially, the researchers will be focusing on the need to clear mines from World War II, before laying power cables to new offshore wind turbines. It is assumed that the number of unexploded mines from World War II hidden in the sea and on land exceeds 40,000.

Therefore, there are several parties involved in the project which are interested in applying the new technology. In addition to the drone company Sky-Watch A/S, DONG Energy is establishing many new offshore wind farms, Geo is carrying out geotechnical surveys in connection with, for example, offshore wind farms, and the Royal Danish Navy’s mine clearance service often has the dangerous task of clearing the mines.

The magnetometer drone will furthermore be tested in the mountains of Greenland, where it may have an impact on the search for mineral deposits or military waste, and it will also be tested from a vessel in relation to its ability to detect large mines in deeper waters. In both cases, the drone’s ability to take off and land vertically is significant.

Denmark to take a leading role in magnetic mapping 

Over the next four years, researchers from DTU Space will develop and test the new technology. The hope is that in the long term, the technology can supplement the existing mine detection technologies, which are both expensive and inefficient. This could potentially give Denmark a leading position in relation to magnetic mapping of the subsurface.

“The global market for flexible, efficient, and precise mapping of, for instance, mines, military waste, and minerals is big. So the project will allow Danish technology companies to take a strong position in this area,” says Arne Døssing.

Project partners

DTU Space

DTU Space is Denmark’s national space research centre and primarily uses ‘space’ as the basis for research and technology development. This includes, among other things, satellite and aircraft measurements of the planet and its magnetic properties, and the development of instruments for use in space has made DTU Space one of the world’s leading specialists in precise and accurate measuring instruments. DTU Space heads the new drone project.

Sky-Watch

Sky-Watch is a Danish drone company with more than 35 employees and a global customer network spanning four continents. Together with DTU Space, Sky-Watch has been responsible for the development of the drone to be used and modified in the project.

Geo

Geo is a Danish company with 200 employees and expertise in geotechnology. Geo has been involved in the construction of numerous offshore wind farms and other offshore installations over the past 25 years. The company has extensive experience with the collection of different types of geophysical data, for instance from vessels, in the search for mines and bombs.

DONG

DONG Energy, which has 6,700 employees, is one of the leading energy companies in Northern Europe and the world leader in the installation of offshore wind turbines. DONG is involved in both the development, installation, and maintenance of offshore wind turbines.

The Royal Danish Navy

The Royal Danish Navy’s mine clearance service is specialized in mines and is often needed for jobs involving clearance of old, buried mines and bombs.