Novu V

Novu-V is a multi-purpose surface drone platform with hydrojet propulsion, which can be operated in autonomous mode or with remote control. The performance, technological infrastructure and robustness of the vehicle enable more efficient operations.


The autonomous unmanned surface vehicle has a single-body structure, due to its modern, adaptable and simple design, it can carry a wide range of payloads, be easily lowered into water without a ramp access, can be customized according to the needs of the customers and easily used by a single person. Due to its state-of-the-art technological infrastructure, Novu-V can meet the needs of many different customer segments, such as port operators, submarines, shipyards, marinas, shipowners, municipalities, dams, class organizations.


Users can perform the required operation in any condition and provide data transfer through the control unit available in additional demand to the product.

20 Kilograms

Length: 1.5 Meters / Beam: 0.9 Meters / Draft: 0.4 Meters

Up to 2 Hours @ Max Speed / Up to 6 Hours @ Operation Speed

Autonomous, Semi-Autonomous and Remote Controlled Operations

RF Telemetry, Control with Ground Control System Iridium Satellite Communications (In demand)

Beaufort Sea State 3

7.5 Kts Max Speed / 1.5 Kts Operational Speed

2 x Brushless DC Motor Driving 3 Blade Propellers

Radar, Lidar and AIS

Up to 5 Kilometers Remote Range 10 Nm Operational Range

Echo-sounder (Up to 200 m range)

  • Bathymetric measurements,
  • Oceanographic and topographical surveys,
  • Detailed depth measurements within the ports, lakes and dams,
  • Determination of pipeline routes and inspection activities,
  • Sea filling, excavation and pre-construction measurements and controls,
  • Flow measurements of dynamic waters such as rivers, dams and lakes,
  • Structural inspections such as bridge piers, wind mills, FSRUs, ports, piers,
  • Port and yacht marina security observation activities,
  • General environment assessment and rapid response,
  • Water quality measurement with optional sensors,