Successful launch of Deep Vision in South Korea

Deep Vision has been on its first cruise with the new fisheries science research vessel "Tamgu 23" in South Korea, owned by the National Institute of Fisheries Science (NIFS). - The biggest change is eco-friendly research that does not catch fish when operating trawling equipment, says research scientist Dr. Hyungbeen Lee.

"Tamgu 23" is equipped with state of the art scientific instruments, including scientific echosounder (EK80, ME70, SC90), trawl monitoring system, and MOCNESS. The Deep Vision system is the first of its kind in Korea - and the third in the world - to be employed by the forward-thinking institute. Dr. Lee describes his experience from the first cruise:

- We attached the Deep Vision duringthe six times operation of the mid-water trawl and fish caught by operatingdepth were filmed. Small fish under 10 cm were also photographed, enabling theidentification of fish species, and the technique of measuring fish length bycompensating the distance using two cameras was also impressive.

READY TO LAUNCH: Deep Vision subsea unit and sorting mechanism ready to be launched from NIFS's new research vessel "Tamgu 23".

More sustainable sampling

Dr. Lee specialises in fisheries acoustic andresearches temporal and spatial distribution of biomass of major pelagic fishspecies in Korea. With the help of Deep Vision, he is hoping that more of hisresearch can be done without catching the fish:

- With Deep Vision, it is possible to identify anddistribute fish species that pass through trawl without catching the fish.Although we are still fishing with the cod-end closed, and comparing the actualcaptured data with those from Deep Vision, we hope to proceed without catchingfish in the future.

Acoustic integration

The system delivered to NIFS includes an acousticlink for sending statistical information from the Deep Vision underwater unitto the vessel, as well a sorting mechanism that makes it possible to sortthe catch for biological samples and let the rest swim back into the sea.

Dr. Lee is still working to see how the system canbest support his work and is hoping to integrate the efficiency of bothacoustic and image-based method in his research. The Institute of Marine Research(IMR) in Norway already import images from Deep Vision into their acousticsoftware to confirm acoustic data where these are ambiguous.

- Also, it seems like a new attempt to fish for the necessary depth of water using the Deep Vision automatic selection mechanism, says Dr. Lee.

COMMISSIONING IN UNUSUAL TIMES: Scantrol Deep Vision's engineer, Eirik Svoren Osborg (back left), was one of the few engineers of the Scantrol group to leave the country after the lockdown in March 2020. Here together with Dr. Pyungkwan Kim from NIFS (left), Dr. Hyungbeen Lee (front) and IkJae Kwon from our partner in South Korea, Lucky Susan.

Challenging commission

Launching a new system on the other side of the world in a year of lockdown and travel restrictions was no mean feat. However, NIFS was determined to get the system operational on their first cruise despite the global challenges.

Scantrol Deep Vision's engineer, Eirik Svoren Osborg, was one of the few engineers of the Scantrol group to leave the country after the lockdown in March of last year. He describes his experience:

- The commissioning in South Korea was certainly not what I expected when I first heard that I was going there. It was a very different travel experience, from wearing a mask to spending time in a quarantine hotel and submitting daily reports about my health condition via an app.

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