Based on magnetometer measurements only, three-axis attitude, rate, and orbit estimation are successfully achieved. A single Augmented Dynamics Extended Kalman Filter (ADEKF) is configured by combining the spacecraft nonlinear attitude dynamics and quaternion kinematics with orbital mechanics. The filter design is adopted for three-axis stabilized spacecraft in low Earth orbits where the aerodynamic drag is the dominant source of disturbances in addition to the spacecraft magnetic residuals. To reduce the computational burden, another Interlaced Extended Kalman Filter (IEKF) is developed to uncouple the attitude/rate from the orbit dynamics. Both filters are implemented using the magnetometer measurements and their corresponding time...
AbstractThe main goal of this research is to establish spacecraft orbit and attitude control algorit...
The primary goal of this work is to extend the work done in, Tamer (2009), to provide high accuracy ...
The Magnetospheric MultiScale Mission is a four spacecraft formation flying mission designed to stud...
A generalized algorithm for spacecraft three-axis attitude and rate estimation is presented. The fi...
An Unscented Kalman Filter (UKF) for estimation of the attitude and rate of a spacecraft using only ...
A single, augmented Extended Kalman Filter (EKF) which simultaneously and autonomously estimates spa...
The main goal of this research is to establish spacecraft orbit and attitude control algorithms base...
The magnetometer has long been a reliable, inexpensive sensor used in spacecraft momentum management...
Determining spacecraft attitude in real time using only magnetometer data presents a challenging fil...
Estimation of satellite three-axis attitude using only one sensor data presents an interesting estim...
The main objective of this research is to provide attitude estimation, orbit estimation, and attitud...
A three-axis Magnetometer/Kalman Filter attitude determination system for a spacecraft in low-altitu...
Kalman Filter (KF) based algorithms are the most frequently employed attitude estimation algorithms....
Determining spacecraft attitude in real time using only magnetometer data presents a challenging fil...
This report studies the development of a Multiplicative Extended Kalman Filter for orbit and attitud...
AbstractThe main goal of this research is to establish spacecraft orbit and attitude control algorit...
The primary goal of this work is to extend the work done in, Tamer (2009), to provide high accuracy ...
The Magnetospheric MultiScale Mission is a four spacecraft formation flying mission designed to stud...
A generalized algorithm for spacecraft three-axis attitude and rate estimation is presented. The fi...
An Unscented Kalman Filter (UKF) for estimation of the attitude and rate of a spacecraft using only ...
A single, augmented Extended Kalman Filter (EKF) which simultaneously and autonomously estimates spa...
The main goal of this research is to establish spacecraft orbit and attitude control algorithms base...
The magnetometer has long been a reliable, inexpensive sensor used in spacecraft momentum management...
Determining spacecraft attitude in real time using only magnetometer data presents a challenging fil...
Estimation of satellite three-axis attitude using only one sensor data presents an interesting estim...
The main objective of this research is to provide attitude estimation, orbit estimation, and attitud...
A three-axis Magnetometer/Kalman Filter attitude determination system for a spacecraft in low-altitu...
Kalman Filter (KF) based algorithms are the most frequently employed attitude estimation algorithms....
Determining spacecraft attitude in real time using only magnetometer data presents a challenging fil...
This report studies the development of a Multiplicative Extended Kalman Filter for orbit and attitud...
AbstractThe main goal of this research is to establish spacecraft orbit and attitude control algorit...
The primary goal of this work is to extend the work done in, Tamer (2009), to provide high accuracy ...
The Magnetospheric MultiScale Mission is a four spacecraft formation flying mission designed to stud...