Navigating the unseen
Navigating the unseen
Navigating the unseen
Advanced perception, localization, and navigation technologies for underwater robots operating in complex, low-visibility environments
Advanced perception, localization, and navigation technologies for underwater robots operating in complex, low-visibility environments
Advanced perception, localization, and navigation technologies for underwater robots operating in complex, low-visibility environments
Deeptech spin-off from academic research in robotics, estimation, and control
Deeptech spin-off from academic research in robotics, estimation, and control
Deeptech spin-off from academic research in robotics, estimation, and control
Autonomy for underwater robotics
Autonomy for underwater robotics
Autonomy
Autonomy
Enable autonomous and semi-autonomous underwater inspection and surveillance missions
Enable autonomous and semi-autonomous underwater inspection and surveillance missions
Precision
Precision
Robust relative localization in complex environments without acoustic positioning systems
Robust relative localization in complex environments without acoustic positioning systems
Robustness
Robustness
Reliable operation in turbid water and low-visibility conditions.
Reliable operation in turbid water and low-visibility conditions.
Applications
Applications
Close-proximity inspection of subsea structures
Autonomous navigation in cluttered environments
Target tracking and following
Station keeping without external positioning
Operation in turbid or zero-visibility conditions
Inspection without DVL or GPS
Close-proximity inspection of subsea structures
Autonomous navigation in cluttered environments
Target tracking and following
Station keeping without external positioning
Operation in turbid or zero-visibility conditions
Inspection without DVL or GPS
Autonomy for underwater robotics
Applications
Close-proximity inspection of subsea structures
Autonomous navigation in cluttered environments
Target tracking and following
Station keeping without external positioning
Operation in turbid or zero-visibility conditions
Inspection without DVL or GPS
Autonomy
Enable autonomous and semi-autonomous underwater inspection and surveillance missions
Precision
Robust relative localization in complex environments without acoustic positioning systems
Robustness
Reliable operation in turbid water and low-visibility conditions.
What we do
What we do
What we do
Eyenav Robotics develops advanced algorithms, embedded software, and system integration solutions for underwater robotic platforms. Our technologies enable reliable operation in complex subsea environments by overcoming visibility limitations, improving relative localization, and removing dependence on external positioning infrastructure.
Eyenav Robotics develops advanced algorithms, embedded software, and system integration solutions for underwater robotic platforms. Our technologies enable reliable operation in complex subsea environments by overcoming visibility limitations, improving relative localization, and removing dependence on external positioning infrastructure.
Eyenav Robotics develops advanced algorithms, embedded software, and system integration solutions for underwater robotic platforms. Our technologies enable reliable operation in complex subsea environments by overcoming visibility limitations, improving relative localization, and operating without external positioning infrastructure.
Learn more about our solutions
Learn more about our solutions
Learn more about our solutions
Core technologies
Core technologies
Core technologies
Vision-based Autonomous Navigation
Vision-based Autonomous Navigation
Autonomous navigation using visual perception in complex underwater environments
Vision-based Autonomous Navigation
Autonomous navigation using visual perception in complex underwater environments
Sonar-based Autonomous Navigation
Sonar-based Autonomous Navigation
Sonar-based Autonomous Navigation
Navigation using forward-looking sonar in low-visibility conditions
Navigation using forward-looking sonar in low-visibility conditions
Sonar Target Tracking
Sonar Target Tracking
Sonar Target Tracking
Real-time tracking of underwater structures and targets using sonar
Real-time tracking of underwater structures and targets using sonar
Vision-Inertial Perception
Vision-Inertial Perception
Vision-Inertial Perception
Robust perception and image stabilization using visual-inertial fusion
Robust perception and image stabilization using visual-inertial fusion
Advanced Control
Advanced Control
Advanced Control
Control of constrained systems, including underactuated robots and operation without DVL
Control of constrained systems, including underactuated robots and operation without DVL
Explore our technology
Explore our technology
Industries we serve
Industries we serve
Industries we serve
ROV & AUV
ROV & AUV
Manufacturers and operators
Manufacturers and operators
Subsea sensing
Subsea sensing
Sonar and sensing technology providers
Sonar and sensing technology providers
Defense & security
Defense & security
Surveillance and intervention systems
Surveillance and intervention systems
Offshore energy
Offshore energy
Inspection and industrial operations
Inspection and industrial operations
Discover our markets
Discover our markets
Explore our technology
Built on advanced research
Built on advanced research
Built on advanced research
Born from academic research in robotics, estimation, and control, Eyenav Robotics transforms cutting-edge scientific advances into robust, industrial-grade solutions for underwater autonomy.
Born from academic research in robotics, estimation, and control, Eyenav Robotics transforms cutting-edge scientific advances into robust, industrial-grade solutions for underwater autonomy.
Discover our markets
About us
About us
About us
A scientific and engineering-driven team
A scientific and engineering-driven team
A scientific and engineering-driven team
Our team combines academic excellence, advanced algorithmic expertise, and a strong industrial vision to bring breakthrough technologies to real-world underwater applications.
Our team combines academic excellence, advanced algorithmic expertise, and a strong industrial vision to bring breakthrough technologies to real-world underwater applications.
Meet the team
They trust us
They trust us
Discuss your project
Let’s build the next generation of underwater autonomy
Let’s build the next generation of underwater autonomy
Let’s build the next generation of underwater autonomy
We collaborate with industrial partners to deploy advanced autonomy in underwater robotic systems.
They trust us
They trust us
