An optimal algorithm for the in-flight calibration of spacecraft gyroscope systems is presented. Special consideration is given to the selection of the loss function weight matrix in situations in which the spacecraft attitude sensors provide significantly more accurate information in pitch and yaw than in roll, such as will be the case in the Hubble Space Telescope mission. The results of numerical tests that verify the accuracy of the algorithm are discussed
Agility describes the ability of a spacecraft to arbitrarily and rapidly reorient itself inspace. In...
textThis dissertation presents the development of a new algorithm for processing GPS signals to com...
Traditionally, attitude estimation has been performed using a combination of external attitude senso...
This paper presents a comparison between two approaches to sensor calibration. According to one appr...
This paper presents the state of the art and future prospects for autonomous real-time on-orbit cali...
A detailed review of the in-flight calibration of the Hubble Space Telescope attitude sensors is giv...
In most spacecraft (SC) there is a need to know the SC angular rate. Precise angular rate is require...
Discussed here is the calibration of the scale factors and rate biases for the Cosmic Background Exp...
Tests of a new method for the simultaneous estimation of spacecraft attitude and sensor biases, base...
Current documentation and software do not adequately address the calculation and use of the optimal ...
textSome modern spacecraft missions require precise knowledge of the attitude, obtained from the gro...
A new algorithm for estimating the angular velocity using quaternion measurements is developed base...
AbstractThe problem of gyrocompassing using inertial sensors, i.e., gyros and accelerometers, is add...
NASA and other space agencies have shown interest in sending humans on missions beyond low Earth orb...
A new algorithm is developed for inflight magnetometer bias determination without knowledge of the a...
Agility describes the ability of a spacecraft to arbitrarily and rapidly reorient itself inspace. In...
textThis dissertation presents the development of a new algorithm for processing GPS signals to com...
Traditionally, attitude estimation has been performed using a combination of external attitude senso...
This paper presents a comparison between two approaches to sensor calibration. According to one appr...
This paper presents the state of the art and future prospects for autonomous real-time on-orbit cali...
A detailed review of the in-flight calibration of the Hubble Space Telescope attitude sensors is giv...
In most spacecraft (SC) there is a need to know the SC angular rate. Precise angular rate is require...
Discussed here is the calibration of the scale factors and rate biases for the Cosmic Background Exp...
Tests of a new method for the simultaneous estimation of spacecraft attitude and sensor biases, base...
Current documentation and software do not adequately address the calculation and use of the optimal ...
textSome modern spacecraft missions require precise knowledge of the attitude, obtained from the gro...
A new algorithm for estimating the angular velocity using quaternion measurements is developed base...
AbstractThe problem of gyrocompassing using inertial sensors, i.e., gyros and accelerometers, is add...
NASA and other space agencies have shown interest in sending humans on missions beyond low Earth orb...
A new algorithm is developed for inflight magnetometer bias determination without knowledge of the a...
Agility describes the ability of a spacecraft to arbitrarily and rapidly reorient itself inspace. In...
textThis dissertation presents the development of a new algorithm for processing GPS signals to com...
Traditionally, attitude estimation has been performed using a combination of external attitude senso...