As a GNC Engineer at , you will be a member of the team architecting the full simulation and flight control stack for in-space transport vehicles and other space systems. You will help drive the overall spacecraft system architecture, execute vehicle design and higher-level transportation system trade studies, and implement the spacecraft's attitude determination, trajectory optimization, guidance, and control systems.
You will actively contribute to the full life cycle of GNC development, from early architectural decisions and design through to hardware in the loop testing, on-vehicle functionality, and flight operations. This will include development of high fidelity multi-degree of freedom simulation and test framework, supporting Monte Carlo analyses, and the development of the core GNC algorithms that fly our spacecraft.
Responsibilities
Drive mission performance for high-deltaV, refuellable transport spacecraft to make in-space transportation abundant and affordable
Drive rapid execution and iteration efforts that put our spacecraft in orbit quickly
Hands-on prototyping, troubleshooting, and testing of simulations, flight algorithms, and hardware in the loop testing
Develop simulation and modeling tools to support vehicle and GNC trade studies
Develop novel algorithms for low thrust trajectory optimization, RPOD, and spacecraft attitude control and orbit determination
Select and size actuators and sensors to support spacecraft attitude control
Negotiate requirements by having a deep understanding of the company and mission objectives and providing alternative solutions
Conduct design reviews, test readiness reviews, and flight readiness reviews with a heavy emphasis on technical excellence
Qualifications
Bachelor's degree in relevant engineering or physics discipline
3+ years of experience designing complex control systems that operate in harsh environments (autonomous vehicles, drones, spacecraft, etc.)
Capable of maintaining flexibility in direction under changing circumstances
Track record of delivering novel, excellent technical products
Demonstrated knowledge in designing, modeling, testing, and flying aerospace guidance, navigation, and control systems
Understanding of orbital mechanics, modeling and simulation, and software development and modeling skills, particularly in C/C++/Python/MATLAB/Simulink
Proven system engineering and configuration management skills
Excellent written and verbal communication skills
Preferred Qualifications
Master's degree in engineering or physics
Experience with GMAT, AGI STK/Astrogator, FreeFlyer or similar trajectory design, analysis, and optimization tools
Demonstrated experience with clean sheet GNC, simulation, software development, and conceptual spacecraft design, actuator sizing, and attitude determination and control
Experience with spacecraft on-orbit operations
Experience with rendezvous, proximity operations, and docking
Please apply to this advert or reach out to Matthew Mallorie @ EVONA m.mallorie@evona.com