Sovereign edge-AI navigation.
Onboard visual processing and autonomous path planning engineered for contested, GPS-denied environments. Our dual-use airframes execute complex reconnaissance entirely independent of ground-station telemetry.
0ms
Telemetry Latency
100%
Sovereign Assembly
Onboard Tactical Intelligence
Three pillars of sovereign UAV autonomy designed to execute critical reconnaissance missions under total electronic warfare conditions.
Edge-AI Processing
GPS-Denied Routing
Modular Integration
Onboard neural networks process high-resolution optical data in real-time, enabling target classification and mission execution even when communication links are completely severed.
Proprietary inertial navigation and optical flow algorithms allow precise flight path execution and obstacle avoidance without reliance on external satellite coordinates.
Standardized mechanical and electrical interfaces support rapid swapping of advanced thermal sensors, optical payloads, and electronic warfare modules.
Autonomous Execution Protocol
Pre-Flight Loading
Telemetry-Free Launch
Optical Flow Navigation
Target Classification
Mission parameters, target signatures, and geographic boundaries are compiled and uploaded directly to the airframe's secure onboard storage.
The UAV launches autonomously, immediately entering silent mode with all active radio transmitters deactivated to prevent detection.
Onboard cameras track ground features to calculate velocity and drift, maintaining precise positioning without relying on vulnerable GPS signals.
Edge processors analyze optical and thermal feeds, identifying and logging tactical assets before returning to the designated recovery zone.
Initiate Technical Evaluation
Request comprehensive airframe schematics, hardware integration guides, and laboratory flight telemetry logs from our Bucharest R&D facility.