A study was conducted to determine the feasibility of a satellite attitude fine-control system using the interaction of the earth's magnetic field with current-carrying coils to produce torque. The approximate intensity of the earth's magnetic field was determined as a function of the satellite coordinates. Components of the magnetic field were found to vary essentially sinusoidally at approximately twice orbital frequency. Amplitude and distortion of the sinusoidal components were a function of satellite orbit. Two systems for two-axis attitude control evolved from this study, one using three coils and the other using two coils. The torques developed by the two systems differ only when the component of magnetic field along the tracking lin...
This paper addresses magnetic attitude control of a satellite with one axis of inertia significantly...
A satellite has permanent magnetism associated with it resulting from the magnetization of ferrous i...
This document describes the design, analysis of Orbit Maneuvers and Attitude Control for NanoSat cla...
Magnetic torquing of spacecraft has been an important mechanism for attitude control since the earli...
Additional contributor: Demoz Gebre-Egziabher (faculty mentor).Control of satellite pointing directi...
Recently small satellite missions have gained considerable interest due to low-cost launch opportuni...
A brief theoretical study has been made for the purpose for estimating and comparing the weight of t...
Magnetic torquers are specifically designed to generate a magnetic field onboard the satellites for...
This paper describes a comparison study of magnetic attitude control torque generation performance o...
This paper describes a comparison study of magnetic attitude control torque generation performance ...
Magnetic torquers are specifically designed to generate a magnetic field onboard the satellites for ...
Abstract: Attitude control systems which provide small satellites with a required angular ...
Spacecrafts, especially satellites, play an ever greater rolein our daily lives as we increasingly d...
A design study of the attitude control system for the High Energy Transient Experiment (RETE) small ...
In 1985, two non-attitude-controlled satellites were each placed in a low earth orbit by the Scout L...
This paper addresses magnetic attitude control of a satellite with one axis of inertia significantly...
A satellite has permanent magnetism associated with it resulting from the magnetization of ferrous i...
This document describes the design, analysis of Orbit Maneuvers and Attitude Control for NanoSat cla...
Magnetic torquing of spacecraft has been an important mechanism for attitude control since the earli...
Additional contributor: Demoz Gebre-Egziabher (faculty mentor).Control of satellite pointing directi...
Recently small satellite missions have gained considerable interest due to low-cost launch opportuni...
A brief theoretical study has been made for the purpose for estimating and comparing the weight of t...
Magnetic torquers are specifically designed to generate a magnetic field onboard the satellites for...
This paper describes a comparison study of magnetic attitude control torque generation performance o...
This paper describes a comparison study of magnetic attitude control torque generation performance ...
Magnetic torquers are specifically designed to generate a magnetic field onboard the satellites for ...
Abstract: Attitude control systems which provide small satellites with a required angular ...
Spacecrafts, especially satellites, play an ever greater rolein our daily lives as we increasingly d...
A design study of the attitude control system for the High Energy Transient Experiment (RETE) small ...
In 1985, two non-attitude-controlled satellites were each placed in a low earth orbit by the Scout L...
This paper addresses magnetic attitude control of a satellite with one axis of inertia significantly...
A satellite has permanent magnetism associated with it resulting from the magnetization of ferrous i...
This document describes the design, analysis of Orbit Maneuvers and Attitude Control for NanoSat cla...