Embention Autopilots for Loitering Munitions & C-UAS: The New Standard for One-Way Drones

The defense and aerospace industry is witnessing a shift in the loitering munitions and interceptor landscape with the emergence of new autopilot systems from Embention for loitering munitions and C-UAS applications.

Purpose-built for one-way missions, this flight control system combines mission-critical reliability with embedded computer vision for seamless GNSS-denied navigation and high-precision terminal guidance, setting a new benchmark for the sector.

Embedded high-integrity flight control and computer vision

The technical foundation of these autopilots is a unique two-layer architecture that solves the industry-wide challenge of balancing advanced intelligence with flight safety. By isolating mission-critical tasks, the system ensures that high-level computation never compromises basic airworthiness:

1. High-integrity flight control layer. A deterministic engine designed for absolute stability and navigation. This layer manages the critical warhead activation sequence with a verified security environment, built to meet the rigorous DO178C and DO254 design standards.
2. Advanced mission processing layer. A high-performance computing core dedicated to the heavy processing requirements of embedded computer vision. This layer acts as the „eyes and brain“ of the system, executing complex algorithms for target recognition, feature tracking, and GNSS-denied navigation.

To ensure total spatial awareness, the system integrates a comprehensive internal sensor suite, including GNSS, IMUs, magnetometers, and air data systems, alongside LTE positioning for enhanced redundancy. Beyond these internal capabilities, the architecture maintains full compatibility with external sensors, enabling seamless integration with specialized peripherals to meet specific mission demands.

Total navigation sovereignty: GNSS-denied functionality

In modern contested environments, the ability to operate without GPS is no longer optional. These autopilot systems provide total sovereignty through its sophisticated GNSS-denied function:

– Vision-based positioning with embedded maps. By utilizing pre-loaded visual maps within its embedded memory, the autopilot performs absolute referencing against the terrain. This allows the system to achieve high-precision positioning with zero drift, a critical advantage over systems relying solely on dead reckoning or visual odometry.
– Advanced sensor fusion. The core of the navigation sovereignty is a robust sensor fusion engine. It dynamically integrates data from visual positioning, inertial navigation, LTE-based positioning, and other auxiliary sources to maintain a continuous, high-fidelity navigation solution in the most challenging electronic warfare environments.
– Resilience to jamming and spoofing. Because the system relies on local environmental features and multi-source fusion rather than external radio frequencies, it remains immune to GNSS jamming and spoofing tactics.
– Precision homing guidance. This vision-based awareness flows directly into the terminal phase. The autopilot enables advanced point-and-track capabilities, allowing the system to lock onto and autonomously track a designated target with surgical precision. This ensures high-accuracy guidance for both loitering munitions and high-speed interceptors, even when the target is moving or the environment is cluttered.

Dual-mission versatility

The hardware is supported by specialized software versions tailored for the two most critical modern drone applications:

– Loitering munition (LM). Engineered for precision strikes, featuring user-selectable terminal impact angles and advanced target tracking.
– Counter-UAS (C-UAS). Specifically tuned for high-speed interceptors, with agile flight dynamics and intercept trajectories optimized for neutralizing enemy drones.

Tactical security and scalability

Recognizing the risks of technology recovery in one-way missions, these systems include an automatic onboard data wipe to erase sensitive mission data upon impact. Despite these high-end capabilities, the architecture is designed for high-volume production, providing a scalable solution for the modern tactical environment.

About Embention

Leading provider of advanced control systems for autonomous vehicles with 18 years of experience. Embention offers reliable autopilot systems, motor controllers, and avionics for drones and eVTOL. With over 180 employees, it has a strong dedication to safe, efficient, and innovative autonomous flight. Listed on Euronext stock exchange, the company showcases its commitment to transparency and to address company growth to create value for stakeholders.

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