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Developing an underwater network of ocean observation systems with digital twin prototypes - a field report from the Baltic Sea

Developing an underwater network of ocean observation systems with digital twin prototypes - a field report from the Baltic Sea

Developing an underwater network of ocean observation systems with digital twin prototypes - a field report from the Baltic Sea

During the research cruise AL547 with RV ALKOR (October 20-31, 2020), a collaborative underwater network of ocean observation systems was deployed in Boknis Eck (SW Baltic Sea, German exclusive economic zone) in the context of the project ARCHES (i.e., Autonomous Robotic Networks to Help Modern Societies). This network was realized via a digital twin prototype approach. During that period, different scenarios were executed to demonstrate the feasibility of digital twins in an extreme environment, such as underwater. One of the scenarios showed the collaboration of stage IV digital twins with their physical counterparts on the seafloor. In this article, we address the research question of whether digital twins represent a feasible approach to operate mobile ad-hoc networks for ocean and coastal observation.

Baltic Sea, Digital Twins, Field Report, Ocean Observation, Prototyping, Robotic Networks

10.1109/MIC.2021.3065245

1089-7801

33-42

Barbie, Alexander

c567ce7d-cf04-472a-a203-00070f06f97e

Pech, Niklas

adc93e57-3d0d-462b-a223-275636614cbc

Hasselbring, Wilhelm

ee89c5c9-a900-40b1-82c1-552268cd01bd

Flögel, Sascha

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Wenzhöfer, Frank

ac24b784-8c96-4740-80cf-f8cd903ad4ea

Walter, Michael

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Shchekinova, Elena

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Busse, Marc

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Turk, Matthias

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Hofbauer, Michael

ffdf0bd1-e16c-48c0-ba72-b0ccd8b675f7

Sommer, Stefan

bc68ea8f-c71c-471e-8a90-3a0ce74774a0

et al.

Barbie, Alexander

c567ce7d-cf04-472a-a203-00070f06f97e

Pech, Niklas

adc93e57-3d0d-462b-a223-275636614cbc

Hasselbring, Wilhelm

ee89c5c9-a900-40b1-82c1-552268cd01bd

Flögel, Sascha

5e2e8c11-4976-4885-8c70-9e0e6322a76f

Wenzhöfer, Frank

ac24b784-8c96-4740-80cf-f8cd903ad4ea

Walter, Michael

7cfd8dd4-9feb-47f6-8c0f-079dfc17c4f8

Shchekinova, Elena

24988595-6ba0-4ba7-803c-09e02e2dd9a6

Busse, Marc

481f259d-2203-4326-bba4-02b620fb8c08

Turk, Matthias

d41b2210-3470-4925-9ac0-9bc46061e753

Hofbauer, Michael

ffdf0bd1-e16c-48c0-ba72-b0ccd8b675f7

Sommer, Stefan

bc68ea8f-c71c-471e-8a90-3a0ce74774a0

Barbie, Alexander, Pech, Niklas and Hasselbring, Wilhelm , et al. (2021) Developing an underwater network of ocean observation systems with digital twin prototypes - a field report from the Baltic Sea. IEEE Internet Computing, 26 (3), 33-42. (doi:10.1109/MIC.2021.3065245).

Record type: Article

Abstract

During the research cruise AL547 with RV ALKOR (October 20-31, 2020), a collaborative underwater network of ocean observation systems was deployed in Boknis Eck (SW Baltic Sea, German exclusive economic zone) in the context of the project ARCHES (i.e., Autonomous Robotic Networks to Help Modern Societies). This network was realized via a digital twin prototype approach. During that period, different scenarios were executed to demonstrate the feasibility of digital twins in an extreme environment, such as underwater. One of the scenarios showed the collaboration of stage IV digital twins with their physical counterparts on the seafloor. In this article, we address the research question of whether digital twins represent a feasible approach to operate mobile ad-hoc networks for ocean and coastal observation.

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e-pub ahead of print date: 11 March 2021

Keywords: Baltic Sea, Digital Twins, Field Report, Ocean Observation, Prototyping, Robotic Networks

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Identifiers

Local EPrints ID: 488792

URI: http://eprints.soton.ac.uk/id/eprint/488792

DOI: doi:10.1109/MIC.2021.3065245

ISSN: 1089-7801

PURE UUID: 01517c21-8c41-426a-afe7-39e4f6e5c366

ORCID for Wilhelm Hasselbring:

orcid.org/0000-0001-6625-4335

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Date deposited: 05 Apr 2024 16:43

Last modified: 10 Apr 2024 02:15

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Contributors

Author: Alexander Barbie

Author: Niklas Pech

Author: Wilhelm Hasselbring

Author: Sascha Flögel

Author: Frank Wenzhöfer

Author: Michael Walter

Author: Elena Shchekinova

Author: Marc Busse

Author: Matthias Turk

Author: Michael Hofbauer

Author: Stefan Sommer

Corporate Author: et al.

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