About the Role
A young and rapidly growing drone technology company, developing advanced and intelligent unmanned aerial platforms, is looking for a GNC Engineer to join its core flight systems team. The company focuses on building unique, high-performance drones with cutting-edge autonomy and mission capabilities, combining deep engineering expertise with a fast-paced R&D environment.
In this role, you will take a central part in developing the guidance, navigation, control, and estimation capabilities that drive next-generation aerial platforms. You will work on real-world systems, from algorithm design and implementation to integration, tuning, and flight testing, directly impacting system performance in operational environments.
Responsibilities
Design, develop, and maintain guidance, navigation, and control (GNC) algorithms for unmanned aerial systems
Develop and enhance core flight capabilities within a PX4-based autopilot, including advanced mission features
Implement, tune, and validate control, guidance, and state estimation algorithms under real-world constraints
Analyze flight logs, simulations, and test data to identify issues and drive performance improvements
Collaborate with embedded, autonomy, and system engineering teams on integration and development
Support flight testing activities, including planning, execution, and performance evaluation
Contribute to simulation environments and validation workflows (SITL/HITL)
Provide technical input and support within a multidisciplinary engineering team
Requirements
B.Sc. or M.Sc. in Aerospace Engineering, Electrical Engineering, Mechanical Engineering, Computer Science, or related field
2+ years of experience in GNC, flight control, robotics, or autonomous systems
Strong understanding of control theory, navigation, estimation, and flight dynamics
Hands-on experience with autopilot systems, UAVs, or flight control software
Strong programming skills in C/C++
Experience working in Linux environments
Proficiency in Python for analysis, simulation, or tooling
Familiarity with PX4 or similar autopilot frameworks
Strong problem-solving skills and ability to work in a multidisciplinary R&D environment
Advantages
Experience with Kalman filters, sensor fusion, or advanced navigation algorithms
Experience with ROS/ROS2
Background in embedded systems or microcontrollers
Experience with simulation and validation environments
Hands-on experience with drones, including integration or flight testing
Experience in technical leadership or mentoring