Adaptive Algorithm for Controlling the Soft Vertical Landing of an Unmanned Return Spacecraft. I.
Analytical Design of the Law for Control of the Center of Mass Motion for an Unmanned Aerial Vehicle
Analytical Design of the Law for Control of the Center of Mass Motion for an Unmanned Aerial Vehicle
Roll control of a flight vehicle with the adjustable center of mass
Roll control of a flight vehicle with the adjustable center of mass
Analytical construction of interception trajectories in atmosphere
Analytical construction of interception trajectories in atmosphere
Control of flight vehicles with the adjustable center of mass
Control of flight vehicles with the adjustable center of mass
Controlling of a return space vehicle along transition trajectories in atmosphere
Controlling of a return space vehicle along transition trajectories in atmosphere
Synthesis of sliding modes in the systems with uncertain disturbances and measurement errors
Synthesis of sliding modes in the systems with uncertain disturbances and measurement errors
Landing of flight vehicles without the landing gear
Landing of flight vehicles without the landing gear
Control of spacecraft turns in scheduled time using rocket engines
Control of spacecraft turns in scheduled time using rocket engines