45 meters draught: Test Center Maritime Technologies puts research area off Helgoland in the North Sea into operation
Research on the open sea has up until now been either impossible or only possible under challenging conditions. Anyone wishing to investigate large components or complete maritime systems must hire a ship and hope for the right weather conditions.
Long-term experiments are hardly feasible. Now this research site, which is unique in Europe, gives scientists and partners from the industry the opportunity to develop surface and underwater technologies under real-life conditions and to test them in both long-term experiments and short-term test scenarios.
Surface and underwater robotics on the high seas
On the one hand, autonomous underwater vehicles are to be used to study material cycles such as carbon uptake in the sea or eddies and currents that are important for phytoplankton production.
On the other hand, such underwater vehicles as well as autonomous flight systems will be tested in the defined sea area itself. Mobile robotics has the potential to revolutionize industrial measurement methods and repair work of offshore facilities.
This means that complex maintenance work under and above water can be replaced by innovative procedures that require less energy and time.
In the future, underwater vehicles will be able to move independently, examine underwater structures for damages, and repair them autonomously. Intelligent flight systems are also being tested in the area that are for example to be used for the inspection and maintenance of offshore wind turbines and thus relieve people of this dangerous work.
Test site for maritime applications
To fulfil this broad spectrum of tasks, the autonomous vehicles must be equipped with efficient electric propulsion systems, extensive sensor technology, sensor data acquisition and evaluation, as well as appropriate algorithms for the autonomous execution of complex missions. For these applications, high demands are placed on system reliability and the implementation of digitization in maritime contexts.
Proving the reliability of this hard- and software under real environmental conditions is the main focus of the research and development work. Specific developments from the field of mobile robotics can prove their reliability in sea state, currents, sediment loads, high wind speeds and under limited visibility. In addition, different inspection and test scenarios can be set up in the test field depending on the area of application.
The tests provide important findings for development questions and for the optimization of systems. Researchers at the test center will particularly address topics such as the electrification of ship propulsion systems, the reliability and efficiency of propulsion systems for underwater vehicles as well as electrical energy storage systems for surface and underwater applications.
Maritime research as an important innovation driver and economic factor
Not only in the north of Germany, but also worldwide, the maritime economy is one of the most important industrial sectors. In order to strengthen and expand this powerful economic sector, products and services of the highest quality are necessary. High requirements are made in terms of reliability, and digitization in the maritime sector is also considered a challenge. In order to meet these demands, experiments and long-term tests under application-oriented conditions are indispensable.
In order to advance research and development for the maritime sector, an interdisciplinary research consortium was founded under the leadership of the Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM together with the German Research Center for Artificial Intelligence (DFKI), the Helmholtz-Zentrum Geesthacht, Centre for Materials and Coastal Research (HZG), the Institute for Chemistry and Biology of the Marine Environment (ICBM) at the University of Oldenburg and Jacobs University Bremen.
In addition, the consortium receives scientific support from the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research (AWI). Within the Test Center for Maritime Technologies, the research partners combine their specific expertise in materials research and manufacturing technologies, artificial intelligence and robotics, materials and coastal research, marine geology, marine material cycles and energy flows as well as polar and marine research in order to develop future technologies for application in the maritime sector.
At the same time, industrial partners seeking suitable partners and test environments for the development of robust and reliable systems can make use of the scientific know-how and range of services offered by the Test Center for Maritime Technologies. The service portfolio includes planning, implementation and evaluation of application-related performance assessments at the test site. In addition, professional support by experienced technicians can be provided in the areas of logistics, engineering, workshop and control room.
Dr. Hanno Schnars
Business Development Manager Maritime Technologies
Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM
Wiener Strasse 12 | 28359 Bremen | Germany
Phone + 49 421 2246-7376 | Fax -430
Dipl.-Ing. Christopher Gaudig
Deputy Team Leader Maritime Robotics
German Research Center for Artificial Intelligence GmbH (DFKI)
Robotics Innovation Center
Robert-Hooke-Str. 1 | 28359 Bremen
Phone +49 421 17845-4119
All news from this category: Earth Sciences
Earth Sciences (also referred to as Geosciences), which deals with basic issues surrounding our planet, plays a vital role in the area of energy and raw materials supply.
Earth Sciences comprises subjects such as geology, geography, geological informatics, paleontology, mineralogy, petrography, crystallography, geophysics, geodesy, glaciology, cartography, photogrammetry, meteorology and seismology, early-warning systems, earthquake research and polar research.
Yeast mating — more than meets the eye
Pheromones mediate asymmetric mating behavior in isogamous yeast. Researchers from the Max-Planck Institute for Terrestrial Microbiology have discovered a surprising asymmetry in the mating behavior of unicellular yeast that emerges…
New super-resolution microscopy method approaches the atomic scale
Scientists at Weill Cornell Medicine have developed a computational technique that greatly increases the resolution of atomic force microscopy, a specialized type of microscope that “feels” the atoms at a…
‘Wonder material’ can be used to detect COVID-19 quickly, accurately
Researchers show a graphene-based sensor can detect SARS-CoV-2. Researchers at the University of Illinois Chicago have successfully used graphene — one of the strongest, thinnest known materials — to detect…