Join the Team Shaping the Future of Autonomous UAVs

We Are Building the Most Advanced Autonomous UAVs – and We Need You

This isn’t just a project. This is an ongoing revolution in defense technology. We are already operating the largest defense technology R&D hub in Europe, engineering next-generation long-range, AI-powered UAVs that are redefining aerial autonomy and survivability.

Our UAVs are already in the field—capable of flying over 1000 kilometers autonomously, navigating in GPS-denied environments, countering electronic warfare threats, and executing precision missions without human intervention. And now, we’re expanding to push these capabilities even further.

We are growing our elite team—an unprecedented fusion of avionics engineers, AI researchers, UAV specialists, and robotics experts—to build more of these game-changing technologies. We are not experimenting. We are deploying.

If you thrive in an environment where the limits of what’s possible are constantly being broken, where innovation moves at a pace never seen before in aerospace, and where your work will have a direct impact on the future of defense autonomy, this is your place.

• Work on the most advanced AI-driven UAV autonomy ever built.
• Move fast—from concept to real-world deployment in months, not years.
• No bureaucracy—only raw innovation and engineering excellence.
• Work with the best engineers, AI scientists, and UAV pioneers in Europe.

This is not a research lab. This is not a prototype factory. This is where the future of defense aviation is engineered, tested, and deployed.

Why Join Us?

• Work on the most advanced autonomous UAVs ever deployed.
• No research for the sake of research—what you build will fly.
• Push engineering and AI beyond their limits, alongside Europe’s best.
• Move fast, break limits, and redefine the battlefield.

This is not theoretical. This is operational.

Open Roles – Action Teams

We are hiring across eleven critical areas:

1. Avionics & Flight Control Team – Build the core flight systems, from real-time control to mission execution.
2. AI & Sensor Fusion Team – Develop the intelligence that makes UAVs autonomous, adaptive, and untouchable.
3. Testing & Operations Team – Deploy, validate, and push UAVs to their operational limits.
4. Autonomous Robotic Systems – Build ground and air robotics that operate autonomously in contested environments.
5. Ground Control & Mission Software – Develop cutting-edge control stations, secure comms, and real-time battlefield AI.
6. Data Processing & AI Pipelines – Architect the intelligence layer that makes autonomous warfare possible.
7. Simulations & Visualizations – Create ultra-realistic environments to train and optimize autonomous systems.
8. Drone Swarm Operations – Engineer coordinated UAV teams that overwhelm the enemy.
9. Geography & Geolocation – Develop AI-powered mapping and positioning for GPS-denied environments.
10. Hardware Development & AI Acceleration – Design next-gen UAV hardware, sensors, and AI processors.
11. Secure and Adaptive Radiocommunications – Design and build next-generation radio and satellite communication systems.

1. Avionics & Flight Control Team

Flight Control Engineer – Autonomy & Stability

Your Mission: Take control of the sky—not by piloting a drone, but by designing the intelligence that makes UAVs fly smarter than anything else on the battlefield. You will create flight control algorithms that make human pilots obsolete, ensuring precision maneuvering, adaptability, and reliability even in high-threat environments.

What You’ll Do:

• Design and implement adaptive flight control algorithms for autonomous UAVs.
• Develop and optimize real-time flight dynamics models, PID controllers, and AI-based stability systems.
• Integrate multi-sensor fusion (IMU, GPS, RTK, VIO, LiDAR) for precision control.
• Engineer high-speed maneuvering logic for agile, unpredictable flight paths.

What We’re Looking For:

• Experience with UAV autopilot systems (PX4, ArduPilot, custom FCUs).
• Strong foundation in aerodynamics, flight dynamics, and control systems.
• Proficiency in C/C++, Python, ROS 2, and real-time embedded systems.

Embedded Systems Engineer – Avionics & Real-Time Software

Your Mission: The future of warfare will be decided in real-time, in the firmware, in the milliseconds that define life or death in contested airspace. You will design low-latency, high-performance embedded systems that make UAVs smarter, faster, and impossible to disrupt.

What You’ll Do:

• Develop real-time firmware for flight control, navigation, and secure communications.
• Implement MAVLink, UAVCAN, and proprietary communication protocols for UAV telemetry.
• Optimize data pipelines for high-speed sensor processing and AI-driven decision-making.

What We’re Looking For:

• Expert-level knowledge in real-time systems, embedded C/C++, Rust.
• Experience in low-latency, high-performance avionics software.
• Background in secure avionics computing and cyber-resilient firmware.

2. AI & Sensor Fusion Team

AI Engineer – Computer Vision & Target Recognition

Your Mission: Create an AI system that sees better than any human, capable of detecting, identifying, and classifying high-value targets in real-time, under any conditions. You will develop the eyes of our UAVs, fusing EO/IR, SAR, and RF data into actionable intelligence.

What You’ll Do:

• Develop deep-learning models for object detection, classification, and sensor fusion.
• Train AI to process multi-modal imagery from LiDAR, EO/IR, SAR, and RF.
• Build low-power, high-performance computer vision models for real-time processing on UAVs.

What We’re Looking For:

• Expertise in computer vision (YOLO, OpenCV, TensorFlow, PyTorch).
• Experience with real-time image processing on embedded AI accelerators (Jetson, FPGA, custom SoCs).
• Background in multi-spectral data fusion for target identification.

AI Engineer – Robotics & Reinforcement Learning

Your Mission: Teach UAVs how to think, adapt, and outmaneuver. Your AI models will learn in real-time, making UAVs fully autonomous—navigating without GPS, evading threats, and completing missions with zero human intervention.

What You’ll Do:

• Develop reinforcement learning models for adaptive UAV decision-making.
• Train AI agents in simulated battle environments to optimize flight paths and evade threats.
• Implement self-learning mission execution algorithms that evolve through experience.

What We’re Looking For:

• Experience with deep reinforcement learning (DQN, PPO, TRPO, SAC).
• Hands-on work with autonomous robotics, simulation environments, and self-learning AI.
• Strong software engineering skills in Python, C++, TensorFlow, PyTorch.

3. Testing & Operations Team

UAV Test Pilot – Flight & Field Operations

Your Mission: Take what engineers build and push it to the absolute limit. Your job is to break things, make them better, and then break them again. You will be the last line of defense between an idea and an operational, battlefield-ready UAV.

What You’ll Do:

• Conduct manual, semi-autonomous, and fully autonomous UAV test flights.
• Perform stress testing, GPS-denied operations, and electronic warfare resistance trials.
• Collaborate with engineers to fine-tune flight control, AI navigation, and sensor fusion.

What We’re Looking For:

• Extensive experience as a UAV operator, test pilot, or FPV drone specialist.
• Strong knowledge of flight safety, telemetry analysis, and high-speed UAV operations.

4. Autonomous Robotic Systems

Autonomous Robotics Engineer – Unmanned Ground & Aerial Systems

Your Mission: The battlefield of the future is autonomous. Your job is to engineer robotic systems that can navigate, adapt, and execute missions without human intervention. From UAVs to ground-based autonomous vehicles, you will be building intelligent combat systems that never stop moving, never stop thinking, and never stop executing.

What You’ll Do:

• Develop robotic autonomy for UAVs, UGVs, and mixed-domain autonomous systems.
• Engineer real-time obstacle avoidance, terrain adaptation, and mission execution AI.
• Implement AI-driven coordination between air and ground robotic units.
• Design self-learning robotic behaviors for unknown and contested environments.

What We’re Looking For:

• Strong background in robotics, autonomous navigation, and multi-agent systems.
• Experience with ROS 2, PX4, ArduPilot, and real-time robotics frameworks.
• Proficiency in C++, Python, reinforcement learning, and sensor fusion.

5. Ground Control & Mission Software

Mission Systems Engineer – Ground Control & Tactical AI

Your Mission: You will build the digital command center of the battlefield—a ground control system that does more than just control UAVs; it predicts, adapts, and makes mission-critical decisions in real time. You will develop the ultimate human-machine interface for UAV operations, mission planning, and real-time battlefield awareness.

What You’ll Do:

• Design AI-powered ground control stations for UAV mission execution and fleet management.
• Build secure, ultra-low-latency communication systems for real-time UAV telemetry.
• Develop advanced mission planning software with predictive analytics and AI-assisted decision-making.
• Optimize control interfaces for tactical teams operating UAV fleets in dynamic combat environments.

What We’re Looking For:

• Experience in mission-critical software development for defense or aerospace.
• Proficiency in C++, Python, cloud-based control systems, and UAV telemetry.
• Knowledge of secure communications, encryption, and military-grade UI/UX.

6. Data Processing & AI Pipelines

Data Engineer – AI & Sensor Fusion Pipelines

Your Mission: Autonomous systems are only as powerful as the data they process. Your job is to engineer the infrastructure that ingests, processes, and refines battlefield data in real time—transforming raw sensor inputs into actionable intelligence.

What You’ll Do:

• Design real-time data processing pipelines for UAV sensor fusion and AI training.
• Optimize high-volume, high-speed data ingestion from EO/IR, LiDAR, SAR, and RF sensors.
• Implement edge computing solutions for real-time AI inference on UAV platforms.

What We’re Looking For:

• Expertise in distributed computing, real-time data processing, and cloud-edge architectures.
• Experience with Apache Kafka, Kubernetes, TensorFlow, PyTorch, and high-performance AI pipelines.

7. Simulations & Visualizations

Simulation Engineer – AI Training & Digital Twins

Your Mission: Before our UAVs fly real missions, they must train in simulated battle environments that mirror reality. Your job is to develop ultra-realistic AI simulation environments, allowing our autonomous systems to learn, adapt, and perfect their decision-making before deployment.

What You’ll Do:

• Develop high-fidelity simulation environments for UAV testing and AI training.
• Create real-time physics-based simulations for aerodynamics, sensor data, and electronic warfare threats.
• Build digital twins for battlefield scenarios to optimize UAV performance.

What We’re Looking For:

• Expertise in Unreal Engine, Gazebo, OpenFlight, or custom simulation frameworks.
• Experience in high-fidelity physics-based modeling and AI simulation environments.

8. Drone Swarm Operations

Swarm AI Engineer – Multi-UAV Coordination & Distributed Autonomy

Your Mission: One UAV is powerful. A swarm of them is unstoppable. Your job is to develop AI-driven swarm behaviors that allow UAVs to operate as a coordinated, intelligent unit, overwhelming enemy defenses and executing high-risk missions with machine precision.

What You’ll Do:

• Develop AI-driven swarm coordination models for multi-UAV operations.
• Implement reinforcement learning for swarm intelligence and self-adaptive behaviors.
• Optimize ultra-low-latency inter-UAV communication protocols.

What We’re Looking For:

• Expertise in multi-agent systems, reinforcement learning, and UAV coordination.
• Experience in ROS 2, real-time networking, and distributed control architectures.

9 Secure and Adaptive Radiocommunications

In the age of autonomous warfare, communication is the invisible battlefield—and we intend to dominate it. Our UAVs operate beyond line of sight, in GPS-denied environments, and under constant electronic warfare attacks. To stay operational, they need secure, resilient, and ultra-low-latency communication networks that cannot be jammed, intercepted, or disrupted.

We are building next-generation radio and satellite communication systems that provide secure telemetry, command & control (C2), inter-UAV networking, and real-time situational awareness across contested airspace. Our tactical networks must be unbreakable, adaptive, and fast—capable of frequency-hopping, self-healing, and low-probability-of-intercept (LPI) transmission under enemy scrutiny.

If you are an expert in radio engineering, SATCOM, networking, or secure communications, this is your chance to design the future of secure UAV operations.

RF Systems Engineer – Tactical UAV Communication & Anti-Jamming

Your Mission: Develop and deploy battle-hardened communication systems that keep our UAVs connected even in the most contested environments. Your systems will need to evade jamming, operate in denied environments, and ensure secure command & control for UAVs operating beyond line-of-sight.

What You’ll Do:

• Design and develop high-bandwidth, low-latency radio communication systems for UAVs.
• Implement frequency-hopping, spread-spectrum, and AI-driven anti-jamming techniques.
• Engineer secure telemetry, control, and video transmission protocols for high-speed UAV operations.
• Optimize RF performance for long-range, encrypted, and low-detectability communication.

What We’re Looking For:

• Deep expertise in RF systems, SDR (Software-Defined Radio), and UHF/L-band UAV communication.
• Experience with tactical radio waveforms, MIL-STD-188-110, and STANAG 4691.
• Strong knowledge of electronic warfare (EW) threats and countermeasures.
• Proficiency in MATLAB, GNU Radio, or RF simulation tools.

Experience in classified, military-grade communication systems is a plus.

SATCOM & Beyond-Line-of-Sight (BLOS) Engineer – Global UAV Connectivity

Your Mission: UAVs need to stay in control no matter where they operate—whether flying over deserts, oceans, or active war zones. Your job is to develop long-range, secure satellite communication systems that ensure continuous UAV control and real-time data transmission across thousands of kilometers.

What You’ll Do:

• Engineer high-throughput SATCOM systems (Ka/Ku-band, LEO/MEO/GEO networks) for UAV operations.
• Optimize UAV connectivity for Starlink, OneWeb, Iridium, and custom defense satellite constellations.
• Develop anti-spoofing and adaptive beamforming techniques to counter satellite interference.
• Design fallback communication systems (HF, VHF, laser comms) for high-risk environments.

What We’re Looking For:

• Experience with LEO, MEO, and GEO satellite networks for aerospace applications.
• Knowledge of beamforming, phased arrays, and encrypted military SATCOM protocols.
• Familiarity with ITU regulations, defense SATCOM standards, and space-based network resilience.
• Strong background in low-latency satellite network optimization for UAV applications.

Experience working with military SATCOM, SATCOM-on-the-move (SOTM), and classified satellite links is a plus.

UAV Networking & Mesh Communications Engineer – Swarm Connectivity & Real-Time Data Links

Your Mission: One UAV is powerful. A networked swarm of UAVs is unstoppable. Your role is to create a self-healing, low-latency mesh communication system that allows UAVs to talk to each other, share intelligence, and adapt their missions in real time—all while staying invisible to the enemy.

What You’ll Do:

• Develop AI-driven, decentralized mesh networking for autonomous UAV swarms.
• Implement ultra-secure, high-speed inter-UAV communication for cooperative missions.
• Engineer self-healing, multi-hop networking protocols for denied environments.
• Design low-probability-of-intercept (LPI) and low-probability-of-detection (LPD) communications.

What We’re Looking For:

• Expertise in ad-hoc networking, MANET (Mobile Ad-Hoc Networks), and UAV swarm communications.
• Strong background in 5G/6G, V2X, and tactical mesh networking.
• Experience with low-latency, real-time network optimization for autonomous systems.
• Knowledge of secure networking protocols (AES, VPN, IPsec, QKD for defense applications).

Experience in military-grade mesh networks and tactical battlefield networking is a plus.

Ready to Build the Future of UAVs?

Apply now by sending your resume and a brief statement on why you belong here. Will you be part of it?