Euronext | MLUAV | € 41.00 | 04/22/2026
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Autopilot KAI

High-Integrity | Kinetic & AI Autonomy

High-performance flight control system with embedded AI for tactical, industrial, and civil operations. Developed to ensure maximum robustness in complex environments, it integrates neural processing, 4G BLOS communications, and edge computing.

Service Bulletin
Autopilot KAI

Next-Gen AI Autonomous Control

Seamless operation of AI-powered tactical systems and industrial drones.

Dual-Layer AI & Safety

Dual-Layer AI & Safety

The KAI architecture features a specialized dual-layer design, isolating the deterministic safety-critical flight stack from the high-performance embedded AI engine. This structure ensures that intelligent mission logic never compromises core flight stability.
High-Integrity

High-Integrity

The system is engineered for mission-critical reliability, providing the robustness required for operations where failure is not an option.
Vision-Based Control

Vision-Based Control

The high-performance AI core enables direct flight control based on visual input for complex maneuvers. Embedded neural algorithms allow for autonomous landing on moving platforms, visual station-keeping, and precise obstacle negotiation by interpreting the environment through onboard optical sensors in real time.

Intelligence & Safety

Embention is a pioneer in delivering flight controllers that bridge the gap between AI performance and operational safety.

GNSS-Denied Navigation

GNSS-Denied Navigation

Using advanced AI algorithms, the system maintains precise positioning in jammed or signal-shielded environments.

All-In-One Box

All-In-One Box

The miniaturized design concentrates all flight control and AI functions into a lightweight 190g unit.

  • Integrated Sensors: Features GNSS, IMU, Magnetometer, and Barometer for precise orientation and sensor fusion.
  • Neural Processing: Embedded edge computing cores for low-latency target tracking, classification, and recognition.
  • Integrated 4G Module: Onboard LTE module for Beyond Visual Line of Sight (BVLOS) communications and cellular-based positioning in GNSS-denied zones.
 

State of the Art GNSS Denied Navigation

  • Pre-mapped Areas: Utilizes neural-based terrain matching to correlate live camera feeds with stored image data for drift-free absolute positioning.
  • Non-premapped Areas: Enables autonomous operation in unknown territory through real-time visual odometry and SLAM for precise localization.
  • Advanced Sensor Fusion: Combines visual inputs with inertial data and 4G-based positioning into a multi-layered filter for mission continuity.