A new deep-sea crawler system - MANSIO-VIATOR

Sascha Flögel; Detlef Wilde; Ingo Ahrns; Christof Nuber; Marc Hildebrandt; Alexander Duda; Jakob Schwendner

In: Proceedings of the Oceans 18 MTS/IEEE Kobe Techno-Ocean2018. OCEANS MTS/IEEE Conference (OCEANS-2018), Ocean Planet - its our home, May 28-31, Kobe, Japan, IEEE, 2018.


The exploration of space and deep-sea environments faces significant similarities. As in space, the exploration and utilization of the deep sea is performed under extreme environmental conditions. Recently, deep sea systems are becoming increasingly autonomous, resulting in challenges that are similar to autonomous space systems limited energy supply, communication, as well as navigation system control and failure handling. The analogies between autonomous robotic space and deep-sea technologies motivated the German Helmholtz Association to setup the joint research program ROBEX (Robotic Exploration of Extreme environments). In this research program, space and marine scientists and engineers cooperated to find solutions to similar challenges and to mutually benefit from each other's technologies and capabilities. ROBEX consisted of a consortium of German maritime and space research institutions and was funded from 2012-2017. Within the deep-sea crawler project MANSIO-VIATOR, a consortium of marine and space-related institutes developed a new underwater system uniting the advantages of a fixed sea-floor observatory harboring a mobile crawler component to map and monitor large areas on the seafloor.


Weitere Links

20180301_Kobe2018_OTO_MH.pdf (pdf, 4 MB )

Deutsches Forschungszentrum für Künstliche Intelligenz
German Research Center for Artificial Intelligence