Scientists have been using sonar and echo sounder systems on vessels for decades to conduct fish surveys. Now Kongsberg Maritime launches the new Simrad Autonomous EK system with cutting edge technology to
carry out continuous long term, in-depth ecosystem monitoring of the subsea environment. The Simrad Autonomous EK system uses wideband echo sounding technology to discriminate between plankton and different
fish species producing high-quality, high resolution scientific data.
The system is a fully autonomous echo sounder unit built using the same wideband technology as the latest high precision, scientific wideband echo sounder, the Simrad EK80. The battery technology and
pressure rated housing is already proven Kongsberg Maritime technology used in the oil and gas industry for decades, where duration and safety is of the highest concern. Whereas traditionally multiple
echo sounders working in parallel on different frequencies were needed to discriminate between marine species, the wideband technology used in the Simrad Autonomous EK system allows for transmission on
frequencies from 35 to 500kHz , depending on the transducers used in the system setup. With 4 independent channels and internal multiplexing, a wide combination of split beam or up to 8 single beam transducers
can be interfaced to the system.
The Simrad Autonomous EK system contains features such as low power consumption and an energy saving sleep mode allowing it to be deployed on the seabed for more than a year operating autonomously
with internal logging. A new mission planner software has been developed as part of the system, allowing for a pre-programmed customised mission plan. The wideband frequency sweep (chirp) in combination
with advanced signal processing gives exceptionally good signal to noise ratio and range resolution. These new features assist scientists with ecosystem monitoring enabling them to identify species more
The Simrad Autonomous EK system has been developed in conjunction with leading marine institutes with testing carried out by scientists in the Shelikof Strait in the Gulf of Alaska, where three unites
were moored to the seafloor for a period of three months to record the passage of fish above them.
"The data looked beautiful," said Alex De Robertis, a biologist with the Alaska Fisheries Science Centre, the research branch of the National Oceanic and Atmospheric Administration's National Marine
Fisheries Service in a recent NOAA press release. Scientists from NOAA have used acoustics for many years to set sustainable catch limits for the Walleye Pollock, but until now this has been done from
research vessels. "This was a first trial. Usually we estimate how many fish we have by reading the acoustic echo off their backs. In this case, we’ll be reading the echo from their bellies."
"The Autonomous EK system is entirely new in the Simrad product portfolio. The project in Alaska was a pre-release delivery and we are very proud that the very first long term deployment went so well,"
added Tonny Algrøy, Global Sales Manager, Simrad Fish Research, Kongsberg Maritime. "Ship-based surveys offer a snapshot of what’s happening in the water at the time the vessel is there, with the introduction
of the Autonomous EK our users can now better understand what happens in between their surveys. The Autonomous EK records data of the same quality and in the same RAW format as the ship based Simrad EK80,
allowing for easy comparison between data collected from multiple platforms."