“Odyssey was able to track their latest deep towfish sidescan platform at a slant range of 7,500metres from their vessel. Only the lack of a longer tow cable prevented greater ranges being achieved”
Interested in learning more about the capabilities of GyroiUSBL for towfish tracking? Why not request a copy of our new white paper by emailing: firstname.lastname@example.org
New subsea technology which allows geophysical towfish to be tracked at distances far greater than current methods allow, has been successfully evaluated by Odyssey Marine Exploration during trials in the Bay of Biscay. Using our Ranger 2 GyroiUSBL system, Odyssey was able to track their latest deep tow side-scan platform at a slant range of 7,500 metres from their vessel, Odyssey Explorer. Only the lack of a longer tow cable prevented greater ranges being achieved.
Long layback tracking of towfish has traditionally always been a major challenge for conventional Ultra-Short BaseLine (USBL) acoustic positioning systems due to the very long slant ranges involved and vessel noise degrading performance. We first sought to address this challenge back in 2006, turning the problem on its head to create Inverted USBL (iUSBL).
In normal USBL operations, an acoustic transceiver is fitted to the survey vessel and an acoustic transponder is fitted to the target being tracked. With iUSBL, their positions are swapped; the transceiver is installed on the towfish looking up at the transponder deployed from the vessel. Because towfish are typically quiet, the signal-to-noise ratio is dramatically improved which allows long ranges and greater precision to be achieved.
The new Ranger 2 GyroiUSBL system builds on this technique by exploiting the long term accuracy and precision of acoustic positioning with the continuous availability and fast update rate of highgrade inertial navigation sensors. “
All USBL transceivers require motion compensation, whether vessel-based or installed on a towfish. Typically this requires an attitude and heading reference sensor to be co-located with the transceiver, which is both complex and time consuming to correctly align,” said Tom Bennetts, Projects Manager at Sonardyne.
“Inside GyroiUSBL, we have combined the features of our sixth generation HPT acoustic transceiver technology with SPRINT, a subsea INS that can result in more than 10 times improvement in positioning precision over USBL alone. Combining both instruments into a single Titanium housing depth rated to 7,000 metres, enables organisations like Odyssey to quickly and efficiently mobilise deep tow technology without having to worry about navigation sensor offsets.”
Odyssey are pioneers in the salvage of historic, deep water shipwrecks and rely heavily on side-scan sonars to identify potential targets. The towfish being used during the recent trial has been designed to their exact specification to enable far deeper depths to be explored.
For the test, Odyssey used a high powered directional Wideband Mini Transponder (WMT) in responder mode mounted to an over-the-side deployment pole from the Odyssey Explorer. This was interfaced via control room hardware with the GyroiUSBL transceiver mounted on the towfish. Power and communications to the GyroiUSBL was provided through a Nexus multiplex fibre optic telemetry system.
With the towfish fully deployed, Odyssey used the GyroiUSBL to passively listen for the WMT’s signal in a low noise, dynamically stable environment subsea. This meant that they were able to accurately track the position of their towfish at a previously unachievable slant range of 7,500 metres. Additionally, the acoustic transceiver component of the system incorporated Sonardyne’s unique ping stacking technology to provide a tracking update rate of 2 hertz, irrespective of range and water depth.
“The trial went exactly to plan,” said Tom Bennetts. “As the layback grew and grew, GyroiUSBL just kept tracking until we eventually ran out of cable. Analysis of the signal-to-noise data at the time indicated that we could have tracked to beyond 9,000 metres had the winch cable been able to extend further.” He added, “Even more impressive was that these ranges were attained using the lower end of the medium frequency band. This means that the multibeam data quality is significantly enhanced due to less in-band interference at the source.
” Speaking about the positive results of the tests, Andrew Craig, Senior Project Manager at Odyssey Marine Exploration said, “The addition of the GyroiUSBL system has introduced a whole new dynamic to the positioning of towed vehicles at greater water depths and slant ranges that are not facilitated by traditional USBL. The ability to achieve accurate and precise positioning of our towfish mitigates the concerns of gaps in search blocks, unknown offsets from currents, and the influences of catenary in the cable that were by-products of traditional layback calculations. As a result, the positions acquired via the GyroiUSBL system have allowed for a great reduction in operational time spent locating and inspecting subsea targets. We look forward to pushing the capabilities of the system to its limits during future projects.”