University of Gothenburg Selects HUGIN AUV to Expand Autonomy in Marine Research
- Advanced AUV solution depth rated to 3000 metres with up to 300 Km range
- Chalmers University of Technology and Stockholm University to contribute to management of new national marine research asset
The University of Gothenburg has chosen a HUGIN configuration rated to 3000 metres, with a range of up to 300 km. The AUV is due for delivery in February 2018, and will feature an advanced KONGSBERG navigation system in addition to an extensive package of KONGSBERG and third party instruments and sensors, including an EM 2040 Multibeam echo sounder and environmental sensors such as the Contros HydroC®CO2. KONGSBERG will also deliver a HUGIN Operator Station (HOS) Payload Operator Station (POS) and Acoustic Positioning Operator Station (APOS) for communication and full control of the HUGIN and payload from the mothership.
"In order to map the ocean environment to the degree that vital climate change research requires, we need to focus more on increasing our use of autonomous observation platforms," said Anna Wåhlin, Professor in Oceanography, University of Gothenburg. " Our new HUGIN AUV will significantly expand our ability to map ice, seabed, and explore marine environments previously inaccessible to us. KONGSBERG won the contract based on flexibility, experience, future expansion possibilities and price. We are confident that HUGIN will become an important tool in our on-going research in waters closer to Sweden, for example, in the Skagerrak and the Baltic Sea in addition to projects in the Antarctic and Arctic.""HUGIN AUVs are often seen as a commercial platform for offshore exploration & production operations or for naval applications such as mine countermeasures, however, they have also completed tens of thousands of survey kilometres and countless research projects for academic and marine science organisations,"said Atle Gran, Sales Manager Marin Robotics, Kongsberg Maritime.
We're delighted that the University of Gothenburg has chosen HUGIN as its lead autonomous research platform. We look forward to a long term collaboration with the University and its project partners, in addition to developing HUGIN for future research for ocean science and subsea environmental monitoring."