Abstract: We demonstrate the possibility to stabilize the heavy spacecraft like Foton in the gravity gradient orientation mode by the electromagnetic attitude control system that uses three current-carrying coils as its actuators. The coils have mutually perpendicular axes. Electric currents in the coils produce the magnetic moment, which interacts with the Earth magnetic field and produce a torque acting upon the spacecraft. The spacecraft attitude control is implemented by change of the currents in the coils. We investigate a few control laws that reduce the spacecraft angular rate and stabilize the spacecraft gravity gradient orientation. Measurements of a triaxial magnetometer need only to form these laws. Realization of the l...
Abstract: We investigate the gravity gradient stabilization mode of the Earth artificial s...
Abstract: We investigate four modes of the spacecraft Progress uncontrolled attitude motio...
Abstract: Attitude control systems which provide small satellites with a required angular ...
Abstract: We investigate the electromagnetic attitude control system of the spacecraft Fot...
Abstract: We investigate solar orientation mode of an Earth artificial satellite. Satellit...
SPACECRAFT attitude control can be obtained by adopting several actuation mechanisms. Among them, el...
It is known that the synthesis of the relevant control law is performed and appropriate control devi...
Spacecrafts, especially satellites, play an ever greater rolein our daily lives as we increasingly d...
Abstract The attitude stabilization of a charged rigid spacecraft in Low Earth Orbit (LEO) using tor...
Magnetic actuation utilizes the mechanic torque that is the result of interaction of the current in ...
SPACECRAFT attitude control can be obtained by adopting several actuation mechanisms. Among them, el...
Active magnetic control is studied as a means to improve the capabilities and performance of gravity...
[[abstract]]When the orbital altitude of a satellite is relatively low, the methods of magnetic and ...
Abstract: The preprint is devoted to an orientation problem of the small axisymmetrical sa...
Abstract: A preprint is devoted to an orientation problem of the small axisymmetrical spin...
Abstract: We investigate the gravity gradient stabilization mode of the Earth artificial s...
Abstract: We investigate four modes of the spacecraft Progress uncontrolled attitude motio...
Abstract: Attitude control systems which provide small satellites with a required angular ...
Abstract: We investigate the electromagnetic attitude control system of the spacecraft Fot...
Abstract: We investigate solar orientation mode of an Earth artificial satellite. Satellit...
SPACECRAFT attitude control can be obtained by adopting several actuation mechanisms. Among them, el...
It is known that the synthesis of the relevant control law is performed and appropriate control devi...
Spacecrafts, especially satellites, play an ever greater rolein our daily lives as we increasingly d...
Abstract The attitude stabilization of a charged rigid spacecraft in Low Earth Orbit (LEO) using tor...
Magnetic actuation utilizes the mechanic torque that is the result of interaction of the current in ...
SPACECRAFT attitude control can be obtained by adopting several actuation mechanisms. Among them, el...
Active magnetic control is studied as a means to improve the capabilities and performance of gravity...
[[abstract]]When the orbital altitude of a satellite is relatively low, the methods of magnetic and ...
Abstract: The preprint is devoted to an orientation problem of the small axisymmetrical sa...
Abstract: A preprint is devoted to an orientation problem of the small axisymmetrical spin...
Abstract: We investigate the gravity gradient stabilization mode of the Earth artificial s...
Abstract: We investigate four modes of the spacecraft Progress uncontrolled attitude motio...
Abstract: Attitude control systems which provide small satellites with a required angular ...