Eelume subsea resident robot Eely500.

Innovation Norway Supports Eelume

Technology

Eelume has secured NOK 3 million from Innovation Norway to develop untethered operation for its resident robot Eely500.

Courtesy: Eelume

GCE Ocean Technology supported the feasibility study in 2020.

Untethered operations is a prerequisite to enable Eelume’s subsea robot to carry out the missions and collect the data.

The development goal is to reduce the use of surface vessels needed to carry out inspection and intervention subsea.

Another factor is that a resident underwater drone is available 24/7 and can start a mission immediately regardless of a surface ship and weather and wind conditions.

Pre-project support from GCE Ocean Technology

Last year, Eelume received pre-project funding from GCE Ocean Technology to explore different platforms and solutions for developing and implementing autonomy.

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The study took place with Skarv Technologies in Trondheim. The feasibility study has now resulted in a main innovation project with a total budget of close to NOK 12 million.

The next deadline for applying for GCE Ocean Technology pre-project funding is 22 January 2021.

The Goal is Autonomous Resident Underwater Drones

When put into operations, the drone must be able to dock, charge and “live” on the seabed for months and perform various types of inspection and intervention missions.

An autonomous subsea resident robot like Eelume’s is the industry’s first. Having typically 8 thrusters and 1 or 2 joints, the Eely500 has unique manoeuvring and access capabilities. In addition, this gives the drone redundancy which allows it to operate even if faults occur on one or two thrusters.

The drone has built-in redundancy in the navigation and positioning system in the way that it can navigate based on a combination of inertial navigation, acoustic communication and optical navigation. This requires real-time processing of sensor data, advanced situation understanding and new methods for autonomous control.

It is for the development of system architecture with associated methods and algorithms for this autonomy, that Eelume has been awarded funding from Innovation Norway.

The aim is to take intelligent decisions depending on situations and revise the plan for the mission in real time without human intervention. This is far more demanding and places greater demands on the autonomy of the drone than what applies to today’s AUVs.

O&G and Offshore Wind Applications

Advanced, robust autonomy will open up new applications for subsea robots.

While Eelume’s robot, and other subsea resident robots, are being piloted and tested within oil & gas, the use of autonomous robots is highly relevant within other sectors such as offshore wind.

In particular for floating offshore wind farms far away from the coast, autonomous subsea robots are of relevance. The needs and usage are about the same within wind as within oil and gas; inspection of cables and pipelines, moorings and also underwater structures.

Finally, the Eelume robot is planned to be piloted and tested in the Trondheim fjord and at the Åsgard field executing pipeline inspection and valve operations.

Source: GCE