
STARK · Berlin
ABOUT US STARK is a new kind of defence technology company revolutionizing the way autonomous systems are deployed across multiple domains. We design, develop ...
STARK is a new kind of defence technology company revolutionizing the way autonomous systems are deployed across multiple domains.
We design, develop and manufacture high-performance unmanned systems that are software-defined, mass-scalable, and cost-effective.
This provides our operators with a decisive edge in highly contested environments.
We're focused on delivering deployable, high-performance systems - not future promises. In a time of rising threats, STARK is
bolstering the technological edge of NATO Allies and their Partners to deter aggression and defend Europe - today.
Minerva is STARK's command and control software — the brain that connects operators to autonomous systems across multiple domains
in real time. The Minerva team is a small, senior software group based in Berlin and Munich, working directly with our systems and
hardware teams to build mission-critical C2 capabilities deployed in active operational environments.
We move fast, ship real software, and operate under constraints most engineers never encounter — low-bandwidth networks,
air-gapped devices, high-stakes decision loops. There is no room for abstraction for its own sake. Everything we build ends up in
the hands of real operators in the field.
As a Sensors Systems Engineer, you sit at the critical intersection of hardware and software. You are the architect of our
platforms' perception systems, leading the selection, integration, and optimization of the "eyes and ears" of our UAVs—ranging
from high-definition EO/IR gimbals to Radar, Lidar, and IMU systems.
At STARK, we are pushing the absolute limits of hardware. This is a deeply hands-on role; you will be responsible for the entire
lifecycle of a sensor, from probing I2C buses and debugging electrical interfaces to writing the high-performance C++ drivers that
feed our autonomy stack.
gap between physical mounting/wiring and the software nodes that control them.
I2C, SPI, CAN, Serial, and Ethernet (RTSP/UDP).
(using PTP, PPS, or hardware triggering) to ensure all sensor streams are perfectly aligned for fusion.
sensor suite is spatially and logically unified.
compute (e.g., NVIDIA Jetson).
quickly on design improvements to ensure mission success.
software development environments.
ROS2 is a big advantage.
thermal, and power constraints.
code.
A Note on Our Process: At STARK, we value critical thinking, grit, and the ability to learn over a perfect checklist. If you
are a talented engineer who loves building complex systems and is passionate about sensors, but you don’t hit every single
bullet point above, we still want to hear from you. We are building a multidisciplinary team where diverse perspectives lead to
more resilient technology.
ABOUT US STARK is a defense technology company revolutionizing the way autonomous systems are deployed across multiple domains. We design, develop and manufacture high-performance unmanned vehicles that are software-defined, mass-scalable, and cost effective – giving NATO and its allies a decisive edge in the most contested environments. We’re focused on delivering deployable, high-performance systems—not future promises. In a time of rising threats, STARK is bolstering the technological edge of NATO Allies and their Partners to deter aggression and defend Europe—today. ABOUT THE TEAM Minerva is STARK's command and control software — the brain that connects operators to autonomous systems across multiple domains in real time. The Minerva team is a small, senior software group based in Berlin and Munich, working directly with our systems and hardware teams to build mission-critical C2 capabilities deployed in active operational environments. We move fast, ship real software, and operate under constraints most engineers never encounter — low-bandwidth networks, air-gapped devices, high-stakes decision loops. There is no room for abstraction for its own sake. Everything we build ends up in the hands of real operators in the field. YOUR MISSION As a Robotics Engineer with a focus on embedded perception systems, you will play a critical role in enabling real-time autonomy onboard next-generation UAV platforms. You will work directly with camera data pipelines, ROS2-based systems, and embedded compute platforms to build robust, efficient, and scalable perception functionality. You will contribute as a highly skilled individual contributor—hands-on with the system—bridging diverse codebases and enabling data flows across native ROS2 nodes, legacy frameworks, and containerized third-party modules. Your work will be essential to ensuring that our autonomous systems operate reliably in real-world, resource-constrained environments. RESPONSIBILITIES * Develop and integrate real-time perception pipelines on embedded platforms such as the Jetson Nano NX. * Migrate legacy monolithic systems to ROS2, refactoring and modularizing components for better scalability and maintainability. * Enable and optimize image data access across native and containerized components (e.g., Dockerized ROS2 processes). * Design and implement low-level camera and sensor drivers for real-time vision acquisition. * Collaborate with AI, controls, and hardware teams to ensure tight integration between perception and other onboard subsystems. * Profile and debug system performance under embedded constraints (compute, thermal, bandwidth), ensuring stability and robustness in field deployments. * Contribute to system-level architecture discussions with a focus on communication reliability and modularity. QUALIFICATIONS * Bachelor’s or Master’s degree in Engineering or a related technical field. * Strong experience with ROS2, including real-world deployment and integration of perception modules. * Proficient in Python and C++ for embedded and robotics development. * Solid background in robotics, autonomous systems, embedded development, or aerospace applications. * Familiarity with embedded Linux platforms, particularly NVIDIA Jetson devices. * Experience integrating containerized processes (e.g., Docker) into onboard robotic systems. * Ability to navigate and coordinate between different frameworks (ROS2, legacy/custom codebases, third-party modules). * Strong problem-solving and debugging skills, especially in real-time or resource-constrained environments. * Effective communicator and team player in multidisciplinary engineering teams. * Self-driven, organized, and adaptable to fast-paced development cycles. * Willingness to travel occasionally for field testing and deployment.
ABOUT US STARK is a new kind of defence technology company revolutionising the way autonomous systems are deployed across multiple domains. We design, develop and manufacture high performance unmanned systems that are software-defined, mass-scalable, and cost effective. This provides our operators with a decisive edge in highly contested environments. We’re focused on delivering deployable, high-performance systems—not future promises. In a time of rising threats, STARK is bolstering the technological edge of NATO Allies and their Partners to deter aggression and defend Europe—today. YOUR MISSION As an Autopilot Engineer you will develop, adjust, and maintain flight controller firmware and autopilot systems that enable stable, reliable, and high-performance control of unmanned platforms under real-world operational constraints. RESPONSIBILITIES * Develop and maintain autopilot firmware for all systems (PX4-based systems) * Develop and customise our systems for all platforms * Implement and tune low-level control loops (PID, LQR, rate, attitude, and actuator control) * Work directly with flight controllers (MCU-based systems) and embedded hardware * Develop and integrate sensor drivers (IMU, barometer, magnetometer, GPS, air data) * Optimize real-time performance on constrained systems (NuttX / RTOS environments) * Interface high-level autonomy (ROS2) with low-level autopilot systems (MAVLink / DDS bridges) * Perform hardware-software integration, calibration, and validation * Support pre-arm checks, safety systems, and failsafe mechanisms * Debug issues across firmware, drivers, and hardware layers * Conduct HIL/SIL testing and real-world flight tests * Document system architecture, tuning procedures, and validation results QUALIFICATIONS * Integrated Master's (Dipl. Eng.) or higher in Electrical & Computer Engineering (ECE), Mechanical Engineering, Aerospace, or Applied Mathematics & Physical Sciences (TEMFE). * Strong foundation in mathematics and physics (dynamics, kinematics) * Deep understanding of flight dynamics and control principles * Hands-on experience with PX4 systems, ArduPilot (ArduCopter, ArduPlane), iNav, Betaflight, AuterionOS, and MAVLink Protocol * Experience with flight controllers and embedded microcontrollers (MCUs) * Strong C/C++ programming skills (embedded / real-time systems) * Experience developing low-level firmware and sensor drivers * Familiarity with IMU, barometer, magnetometer, GNSS, air data sensors * Understanding of real-time operating systems (e.g. NuttX) * Experience with system integration and hardware debugging * Strong debugging and performance tuning skills Nice to have * Experience with ArduPilot or PX4 internals (uORB, WorkQueues, modules) * Knowledge of uXRCE-DDS, or ROS2 integration * Experience with hardware bring-up and PCB-level debugging * Familiarity with redundant IMU architectures and sensor voting * Experience with high-shock environments * Understanding of safety-critical systems and failsafe design * MATLAB / Python for control tuning and analysis If you´re interested in building the future of European Defence with us, and you see yourself reflected in the description above, please send us your CV in English. We´re looking forward to meeting you!
ABOUT US STARK is a new kind of defence technology company revolutionising the way autonomous systems are deployed across multiple domains. We design, develop and manufacture high performance unmanned systems that are software-defined, mass-scalable, and cost effective. This provides our operators with a decisive edge in highly contested environments. We’re focused on delivering deployable, high-performance systems—not future promises. In a time of rising threats, STARK is bolstering the technological edge of NATO Allies and their Partners to deter aggression and defend Europe—today. YOUR MISSION This role demands more than standard simulation engineering. Working in defence technology means operating close to the realities of modern conflict and building simulation environments that must reliably support development, validation, and mission preparation in demanding conditions. The work is challenging, mission-driven, and grounded in real operational needs. As Simulation Engineer, you will develop and maintain high-fidelity simulation systems that help validate embedded, robotics, and unmanned platforms before they are deployed in the real world. RESPONSIBILITIES * Develop, maintain, and extend simulation environments for autonomous and unmanned systems * Build and integrate physics-based simulation frameworks for robotics, aerospace, and embedded system validation * Design and maintain realistic simulation scenarios for navigation, control, perception, and mission-level behavior * Work with physics engines and simulation stacks to model vehicle dynamics, sensors, actuators, and environmental effects * Support software-in-the-loop, system-in-the-loop, and hardware-in-the-loop testing workflows * Develop and maintain SITL and HITL test setups for embedded systems, autonomy software, and robotic platforms * Integrate simulation environments with ROS2-based autonomy stacks and embedded software workflows * Support validation and testing of guidance, navigation, control, and perception algorithms in simulated environments * Create synthetic test environments for contested, degraded, and GNSS-denied conditions * Develop interfaces between simulators, autopilots, middleware, and edge software systems * Conduct debugging, verification, and performance analysis across simulation and real-system interfaces * Collaborate closely with autonomy, embedded, robotics, and test engineers to ensure simulation supports real development needs * Produce technical documentation, test reports, and analysis of simulation fidelity, limitations, and results QUALIFICATIONS * Strong programming skills in C/C++ and Python * Good understanding of physics, classical mechanics, and system dynamics * Hands-on experience with physics engines and simulation frameworks * Experience with NVIDIA simulation tools and/or open-source simulation stacks * Experience with robotics or unmanned systems simulation workflows * Experience with SITL and HITL testing * Experience integrating simulation with ROS2-based systems * Strong debugging, validation, and testing skills * Good understanding of sensor simulation, actuator modeling, and system interfaces * Experience working with Linux-based development environments * Ability to build reliable simulation pipelines for software development, test, and validation * Structured engineering mindset with strong analytical and problem-solving ability Nice to Have * A university degree in Physics, Aerospace Engineering, Robotics, Mechanical Engineering, Software Engineering, Computer Science, or a related field * Strong background in rigid body dynamics, flight dynamics, multibody systems, control theory, or numerical methods * Experience with NVIDIA Isaac Sim, Isaac Lab, Omniverse, Gazebo, Ignition, AirSim, PX4 SITL, ArduPilot SITL, JMAVSim, or similar frameworks * Experience with GPU-accelerated simulation, rendering, or synthetic data generation * Experience modeling EO, IR, IMU, GNSS, barometer, lidar, radar, or camera sensors * Experience with Monte Carlo analysis, scenario generation, and simulation-based validation * Understanding of aerodynamic modeling, propulsion modeling, and environmental effects such as wind and turbulence * Experience with real-time simulation constraints and hardware interfacing for HITL setups * Experience in autonomous systems, aerospace, UAVs, UGVs, defence systems, or advanced robotics * Familiarity with embedded systems, middleware, and autonomy software stacks * Experience supporting field tests by correlating simulation results with real-world data If you´re interested in building the future of European Defence with us, and you see yourself reflected in the description above, please send us your CV in English. We´re looking forward to meeting you!