2+ YOEPhD or Master’s in mechanical or aerospace engineering with 2+ years in GNC, or extensive hands-on GNC experience; strong C++, control theory, and ADCS/GNC knowledge; Python/Julia/MATLAB skills.
5+ YOEPhD or Master’s in mechanical or aerospace engineering plus 5+ years in GNC, or equivalent hands-on GNC experience; C++, control theory knowledge; experience with LE0 platform actuators and sensors; MATLAB/Python/Julia; strong communication.
ArcherNYSE: ACHR: Develops electric vertical takeoff and landing aircraft for urban mobility.
6+ YOEExperience in vehicle dynamics and control theory; BS (9+ yrs) or MS (6+ yrs) in relevant engineering; proficiency in MATLAB/Simulink; experience verifying GNC systems preferred.
ArcherNYSE: ACHR: Develops electric vertical takeoff and landing aircraft for urban mobility.
3+ YOEBS (5+ yrs) or MS (3+ yrs) in aerospace/electrical/computer engineering, strong vehicle dynamics and control theory knowledge, proficiency with MATLAB/Simulink, experience designing and verifying GNC systems.
ArcherNYSE: ACHR: Develops electric vertical takeoff and landing aircraft for urban mobility.
6+ YOEAdvanced degree in engineering with 6–10+ years experience; strong knowledge of vehicle dynamics, optimization, classical and modern control theory; proficiency in MATLAB/Simulink; experience designing, verifying, and flight-testing GNC systems preferred.
ArcherNYSE: ACHR: Develops electric vertical takeoff and landing aircraft for urban mobility.
5+ YOEHands-on MATLAB/Simulink expertise, strong vehicle dynamics and control theory, BS (5+ yrs) or MS (3+ yrs) in relevant engineering, experience with model-based design and verification.
ArcherNYSE: ACHR: Develops electric vertical takeoff and landing aircraft for urban mobility.
10+ YOEExpert in vehicle dynamics and control with MATLAB/Simulink; 10+ years experience or MS with 6+ years or PhD with 4+ years; aerospace background.
ArcherNYSE: ACHR: Develops electric vertical takeoff and landing aircraft for urban mobility.
5+ YOE5+ years in autonomy/GNC or robotics; strong control theory, flight dynamics, embedded systems, SIL/HIL simulation, Linux debugging; expert C++ for real-time embedded software; experience with ROS and autopilot integration; BS in engineering required.