Skip to main content

Large-scale piloting and market maturation of a disruptive technology comprising a fully automatic survey system dramatically reducing the operational cost of handling swarms of autonomous sensornodes

Objective

The ambition of the Oceanid-project is to commercialise our disruptive system for cost-efficient ocean-bottom data acquisition. An automatic Oceanid-system will compliment a large swarm of autonomous Oceanid-nodes, and facilitate a novel launch- and recovery system, incl. inductive re-charging and simultaneous data-transfer, for retrievable of said subsea sensors, enabling a short turnaround on deck. This will reducing operational duration versus similar survey-system with up to 63%, and thus reduce seafloor survey OPEX with more than 50% compared to competitors. The Oceanid is directly contributing to solving the worldwide industrial and societal challenge of unlocking new resources in deep water by provide an effective means for large area exploring of the ocean floor. The innovative Oceanid-concept consist of a large quantity of retrievable and fully autonomous underwater vehicles [AUVs], which in one scenario has an Ocean Bottom Node [OBN, Oceanid-OBN] fully integrated with a novel wireless power and data transmission system [Oceanid-Link]. The handling system topside will automatically deploy the Oceanid-OBNs LARS-type multi-node basket, and recover the nodes safely back on deck after surfacing. A minimum configuration of two standard ISO-containers is developed, comprising the deployable launch and recovery skid (LARS), combined with means of re-filling the novel salt-ballast tanks on the vehicles, and a container for storing of 250x nodes with simultaneous downloading of data and re-charging of batteries. The Oceanid-OBNs has the capacity to log sensor data down to the design depth of 3,000m, and will self-guide upon release from an over-boarding basket to a predetermined location on the seafloor. Upon received acoustic command the vehicle releases the salt-ballast, gain net positive buoyancy and returns to the surface of the water, where the recovery system is recovering the numerous nodes released. A GPS-fix is relayed to the ship via VHF.

Field of science

  • /natural sciences/physical sciences/acoustics
  • /engineering and technology/electrical engineering, electronic engineering, information engineering/electronic engineering/automation and control systems
  • /engineering and technology/electrical engineering, electronic engineering, information engineering/electronic engineering/sensors/smart sensors

Call for proposal

H2020-SMEINST-2-2016-2017
See other projects for this call

Funding Scheme

SME-2 - SME instrument phase 2

Coordinator

Abyssus Marine Services AS
Address
Stroket (3De Etg) 8
1383 Asker
Norway
Activity type
Private for-profit entities (excluding Higher or Secondary Education Establishments)
EU contribution
€ 1 122 023,88

Participants (1)

PARTNER PLAST AS
Norway
EU contribution
€ 1 180 500,13
Address
Strandgata 3
6300 Andalsnes
Activity type
Private for-profit entities (excluding Higher or Secondary Education Establishments)