Exail conducts sea trials of its new USV DriX O-16 (Video)

Exail, a joint venture of ECA Group and iXblue, has conducted sea trials of its new transoceanic uncrewed surface Vessel (USV) DriX O-16.

As informed, the vessel was launched and tested at sea, and demonstrated to institutes and navies around the world. According to the company, it was launched and tested within one week.

DriX O-16 was first put to sea on May 29, 2024, in its home port of La Ciotat (South of France).  

After undergoing a first series of sea trials within the next couple of days, it was showcased in action to selected partners on June 5, 2024.

Twice the length and five times the displacement of the legacy DriX H-8, the latest addition to Exail’s USV product line, DriX O-16, is designed for long-duration operations of up to 30 days.

It benefits from an autonomy of 3,500 nm and can deploy multiple payloads and subsea assets.

Its larger size allows for a wide range of payloads, including multibeam echosounders (MBES), sub-bottom profilers (SBP), and acoustic subsea positioning and communication systems (USBL), according to Exail.

Additionally, the USV features a launch and recovery system to deploy remotely operated towed vehicles (ROTVs), inspection-class remotely operated vehicles (ROVs), and autonomous underwater vehicles (AUVs). 

Exail noted that the new transoceanic USV is particularly suited for full ocean depth scientific and hydrographic surveys, geophysical and UXO surveys, and subsea infrastructure inspections, which may require the deployment of multiple robots.

“We are very proud to have demonstrated to our clients, in such a short time, our capacity to deliver a new fully functional USV that meets the demand for larger capacity, endurance, and multi-mission capabilities, while maintaining high reliability and efficiency at sea,” says Sébastien Grall, Director, Maritime Autonomy Solutions at Exail.

“We are convinced that platforms such as DriX O-16 will support the marine industry’s transition to more reliable and efficient autonomous operations.”