Mission Autonomy in Aerospace
Enabling independent decision-making across flight systems

2025-11-02

Experience in applying aerodynamic and mathematical principles to carry out aircraft stability analysis, from longitudinal and lateral to directional stability as the basis of control design.
Experience in developing guidance laws for path-following control using basic to advanced flight control laws .i.e PID to Adaptive Control.
Modeling aircraft/UAV dynamic models used in simulations to capture system behavior, enabling precise performance predictions and flight control systems design.
As unmanned aerial vehicles (UAVs) evolve, so does their autonomy. This article breaks down the levels of autonomy in UAVs and explains what they mean in practical terms.
2025-11-02
Guidance, Navigation, and Control (GNC) is a critical component of any aerospace system.
2023-10-05
Simulation in aerospace has become an essential tool, especially with the complexity of modern aircraft and space systems.
2023-10-01