A software-defined layer
for physical world.
Our technology utilizes existing spatial data to deliver high-fidelity indoor positioning without the need for infrastructure-heavy hardware.
Institutional-grade technology
A mathematically robust spatial core designed for the specific constraints of large-scale, high-traffic indoor environments.
Vector-Native Architecture
Built on PostGIS, our engine maintains geometric integrity across all multi-story architectural layers, providing sub-meter precision for complex indoor environments.
Rust + WASM Positioning
Our positioning engine is compiled to WebAssembly for sub-millisecond pgRouting integration and biomechanical sensor fusion on any modern browser.
Multi-Modal Engagement
Support for Map-Centric (Active), AR-Immersive (View), and Audio-Stealth modes ensures universal accessibility and high user retention.
Hardware-Free Implementation
Traditional indoor positioning systems (IPS) rely on Bluetooth beacons, Wi-Fi fingerprinting, or expensive UWB infrastructure. Navous bypasses these requirements by leveraging advanced sensor fusion and geometric mapping directly in the browser.
Sub-Meter Precision
Our algorithms combine pedestrian dead reckoning (PDR) with environmental markers to maintain accurate positioning even in deep indoor environments where GPS fails.
Real-Time Routing
Dynamic pathfinding accounts for accessibility needs, elevator status, and crowd density to provide the optimal journey through multi-story structures.