The improvements achieved by adding a momentum bias wheel to a Gravity Gradient (GG) stabilized spacecraft are evaluated. Mass, power, and computational processing requirements, as well as performance, are compared for three Attitude Determination and Control Subsystem (ADACS) scenarios. Spacecraft which require low mass and power have long Incorporated GG torques as a passive stabilization technique. The spacecraft is oriented in the general direction required by the mission, but the overall attitude and attitude rate errors are not exceptionally tight. In order to improve the spacecraft pointing accuracies the GG stabilized ADACS .can be augmented by an active control technique. Previously, the use of three TORQRODs was evaluated. With on...
This paper explores using a gravity gradiometer to measure the attitude of a satellite, given that t...
The spin axis attitude drift due to environmental torques acting on the Global Geospace Science (GGS...
This thesis addresses sub-optimal employment of 3 momentum wheels for large angle reorientation of r...
Active magnetic control is studied as a means to improve the capabilities and performance of gravity...
This paper describes a comparison study of magnetic attitude control torque generation performance ...
This paper gives the results of a dynamical analysis of the Globesat gravity gradient stabilized sat...
This paper describes a comparison study of magnetic attitude control torque generation performance o...
Magnetic torquing of spacecraft has been an important mechanism for attitude control since the earli...
A design study of the attitude control system for the High Energy Transient Experiment (RETE) small ...
A gravity-gradient boom and a momentum wheel provides a passive, three-axis attitude control system ...
In this paper, the active magnetic control technique is applied for controlling the attitude and nut...
A brief theoretical study has been made for the purpose for estimating and comparing the weight of t...
Semi-active gravity gradient system for attitude control of earth oriented spacecraf
Abstract: We demonstrate the possibility to stabilize the heavy spacecraft like Foton in t...
This paper describes the design and performance verification of a magnetically controlled smallsat b...
This paper explores using a gravity gradiometer to measure the attitude of a satellite, given that t...
The spin axis attitude drift due to environmental torques acting on the Global Geospace Science (GGS...
This thesis addresses sub-optimal employment of 3 momentum wheels for large angle reorientation of r...
Active magnetic control is studied as a means to improve the capabilities and performance of gravity...
This paper describes a comparison study of magnetic attitude control torque generation performance ...
This paper gives the results of a dynamical analysis of the Globesat gravity gradient stabilized sat...
This paper describes a comparison study of magnetic attitude control torque generation performance o...
Magnetic torquing of spacecraft has been an important mechanism for attitude control since the earli...
A design study of the attitude control system for the High Energy Transient Experiment (RETE) small ...
A gravity-gradient boom and a momentum wheel provides a passive, three-axis attitude control system ...
In this paper, the active magnetic control technique is applied for controlling the attitude and nut...
A brief theoretical study has been made for the purpose for estimating and comparing the weight of t...
Semi-active gravity gradient system for attitude control of earth oriented spacecraf
Abstract: We demonstrate the possibility to stabilize the heavy spacecraft like Foton in t...
This paper describes the design and performance verification of a magnetically controlled smallsat b...
This paper explores using a gravity gradiometer to measure the attitude of a satellite, given that t...
The spin axis attitude drift due to environmental torques acting on the Global Geospace Science (GGS...
This thesis addresses sub-optimal employment of 3 momentum wheels for large angle reorientation of r...