Navigation Without Boundaries
Navigation Without Boundaries
Navigation Without Boundaries
We solve navigation where it matters most - in the environments where traditional solutions fail.
Dirac Labs builds navigation systems that do not rely on GPS.
Our systems mimic migratory species, using magnetic sensing, quantum techniques, and AI.
Dirac Labs builds navigation systems that do not rely on GPS.
Our systems mimic migratory species, using magnetic sensing, quantum techniques, and AI.
Maritime Navigation in GPS-Denied Waters
GPS spoofing and jamming in the Persian Gulf, Red Sea, and Strait of Hormuz cause false positions, route deviations, port delays, and safety risks. Magnetic-field-based navigation enables continuous, jam-proof positioning for commercial vessels, tankers, LNG carriers, and naval ships — even during active electronic warfare.
Aviation & UAV Navigation in Contested Airspace
GPS interference disrupts flight paths, landing approaches, and UAV missions, especially near conflict zones and high-security airspace. MagNav-based positioning provides independent, real-time navigation for crewed aircraft and drones without relying on satellite signals.
Submarine & Underwater Navigation
GPS does not penetrate water, forcing submarines and underwater vehicles to rely on inertial systems that drift over time, reducing positional accuracy and mission reliability. Magnetic navigation enables continuous, drift-free underwater positioning using Earth’s stable magnetic signatures, without surfacing or external signals.
Autonomous Vehicles & Industrial Robotics (Factories, Warehouses, Mining)
GPS is unreliable indoors, underground, and in metal-heavy environments. Magnetic navigation provides robust positioning for robots, AGVs, forklifts, and mining vehicles.
Maritime Navigation in GPS-Denied Waters
GPS spoofing and jamming in the Persian Gulf, Red Sea, and Strait of Hormuz cause false positions, route deviations, port delays, and safety risks. Magnetic-field-based navigation enables continuous, jam-proof positioning for commercial vessels, tankers, LNG carriers, and naval ships — even during active electronic warfare.
Aviation & UAV Navigation in Contested Airspace
GPS interference disrupts flight paths, landing approaches, and UAV missions, especially near conflict zones and high-security airspace. MagNav-based positioning provides independent, real-time navigation for crewed aircraft and drones without relying on satellite signals.
Submarine & Underwater Navigation
GPS does not penetrate water, forcing submarines and underwater vehicles to rely on inertial systems that drift over time, reducing positional accuracy and mission reliability. Magnetic navigation enables continuous, drift-free underwater positioning using Earth’s stable magnetic signatures, without surfacing or external signals.
Autonomous Vehicles & Industrial Robotics (Factories, Warehouses, Mining)
GPS is unreliable indoors, underground, and in metal-heavy environments. Magnetic navigation provides robust positioning for robots, AGVs, forklifts, and mining vehicles.
Maritime Navigation in GPS-Denied Waters
GPS spoofing and jamming in the Persian Gulf, Red Sea, and Strait of Hormuz cause false positions, route deviations, port delays, and safety risks. Magnetic-field-based navigation enables continuous, jam-proof positioning for commercial vessels, tankers, LNG carriers, and naval ships — even during active electronic warfare.
Aviation & UAV Navigation in Contested Airspace
GPS interference disrupts flight paths, landing approaches, and UAV missions, especially near conflict zones and high-security airspace. MagNav-based positioning provides independent, real-time navigation for crewed aircraft and drones without relying on satellite signals.
Submarine & Underwater Navigation
GPS does not penetrate water, forcing submarines and underwater vehicles to rely on inertial systems that drift over time, reducing positional accuracy and mission reliability. Magnetic navigation enables continuous, drift-free underwater positioning using Earth’s stable magnetic signatures, without surfacing or external signals.
Autonomous Vehicles & Industrial Robotics (Factories, Warehouses, Mining)
GPS is unreliable indoors, underground, and in metal-heavy environments. Magnetic navigation provides robust positioning for robots, AGVs, forklifts, and mining vehicles.
Maritime Navigation in GPS-Denied Waters
GPS spoofing and jamming in the Persian Gulf, Red Sea, and Strait of Hormuz cause false positions, route deviations, port delays, and safety risks. Magnetic-field-based navigation enables continuous, jam-proof positioning for commercial vessels, tankers, LNG carriers, and naval ships — even during active electronic warfare.
Aviation & UAV Navigation in Contested Airspace
GPS interference disrupts flight paths, landing approaches, and UAV missions, especially near conflict zones and high-security airspace. MagNav-based positioning provides independent, real-time navigation for crewed aircraft and drones without relying on satellite signals.
Submarine & Underwater Navigation
GPS does not penetrate water, forcing submarines and underwater vehicles to rely on inertial systems that drift over time, reducing positional accuracy and mission reliability. Magnetic navigation enables continuous, drift-free underwater positioning using Earth’s stable magnetic signatures, without surfacing or external signals.
Autonomous Vehicles & Industrial Robotics (Factories, Warehouses, Mining)
GPS is unreliable indoors, underground, and in metal-heavy environments. Magnetic navigation provides robust positioning for robots, AGVs, forklifts, and mining vehicles.
APPLICATIONS
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