Next-Gen Sensing: Safer & Smarter.
Next-Gen Sensing: Safer & Smarter.
Next-Gen Sensing: Safer & Smarter.
Products that bring quantum-inspired precision in positioning and navigation into real-world platforms. Built to operate where GPS cannot.
Designed for Deployment
Designed for Deployment
Built to integrate with existing infrastructure and support future asset tracking and management workflows.
Built to integrate with infrastructure & support asset tracking and management workflows.
Why Dirac Labs
Why Dirac Labs
Because navigation should keep working when GNSS doesn’t.
Generic
Relies on satellites, pre-mapped infrastructure, or artificial beacons
Relies on satellites, pre-mapped infrastructure, or artificial beacons
Optimized for open-sky or controlled environments
Optimized for open-sky or controlled environments
Conventional sensors with signal-processing or pure data-driven models
Conventional sensors with signal-processing or pure data-driven models
Dirac Labs
Uses naturally occurring environmental signatures (Earth’s magnetic field)
Uses naturally occurring environmental signatures (Earth’s magnetic field)
Designed for GPS-denied, degraded, indoor, underground, and underwater environments
Designed for GPS-denied, degraded, indoor, underground, and underwater environments
Quantum-inspired sensing paired with physics-informed AI
Quantum-inspired sensing paired with physics-informed AI
Passive by design, powerful by nature
Passive by design, powerful by nature
We build secure, GPS-free navigation systems that operate in environments where satellites fail, underwater, underground, and indoors.
Earth’s crust contains stable, location-specific magnetic structure created by induced and remnant magnetism.
These magnetic signatures can be used as a natural reference for positioning.