AbstractThe main goal of this research is to establish spacecraft orbit and attitude control algorithms based on extended Kalman filter which provides estimates of spacecraft orbital and attitude states. The control and estimation algorithms must be capable of dealing with the spacecraft conditions during the detumbling and attitude acquisition modes of operation. These conditions are characterized by nonlinearities represented by large initial attitude angles, large initial angular velocities, large initial attitude estimation error, and large initial position estimation error. All of the developed estimation and control algorithms are suitable for application to the next Egyptian scientific satellite, EGYPTSAT-2. The parameters of the cas...
A single, augmented Extended Kalman Filter (EKF) which simultaneously and autonomously estimates spa...
An Unscented Kalman Filter (UKF) for estimation of the attitude and rate of a spacecraft using only ...
Attitude determination algorithms that requires only the earth's magnetic field will be useful for c...
The main goal of this research is to establish spacecraft orbit and attitude control algorithms base...
The main objective of this research is to provide attitude estimation, orbit estimation, and attitud...
AbstractThe primary goal of this work is to extend the work done in, Tamer (2009), to provide high a...
The primary goal of this work is to extend the work done in, Tamer (2009), to provide high accuracy ...
Kalman Filter (KF) based algorithms are the most frequently employed attitude estimation algorithms....
AbstractThe primary aim of this work is to provide simultaneous spacecraft orbit estimation and cont...
The magnetometer has long been a reliable, inexpensive sensor used in spacecraft momentum management...
Based on magnetometer measurements only, three-axis attitude, rate, and orbit estimation are success...
Determining spacecraft attitude in real time using only magnetometer data presents a challenging fil...
The primary aim of this work is to provide simultaneous spacecraft orbit estimation and control base...
Determining spacecraft attitude in real time using only magnetometer data presents a challenging fil...
This paper describes a prototype PC-based system that uses measurements from a three-axis magnetomet...
A single, augmented Extended Kalman Filter (EKF) which simultaneously and autonomously estimates spa...
An Unscented Kalman Filter (UKF) for estimation of the attitude and rate of a spacecraft using only ...
Attitude determination algorithms that requires only the earth's magnetic field will be useful for c...
The main goal of this research is to establish spacecraft orbit and attitude control algorithms base...
The main objective of this research is to provide attitude estimation, orbit estimation, and attitud...
AbstractThe primary goal of this work is to extend the work done in, Tamer (2009), to provide high a...
The primary goal of this work is to extend the work done in, Tamer (2009), to provide high accuracy ...
Kalman Filter (KF) based algorithms are the most frequently employed attitude estimation algorithms....
AbstractThe primary aim of this work is to provide simultaneous spacecraft orbit estimation and cont...
The magnetometer has long been a reliable, inexpensive sensor used in spacecraft momentum management...
Based on magnetometer measurements only, three-axis attitude, rate, and orbit estimation are success...
Determining spacecraft attitude in real time using only magnetometer data presents a challenging fil...
The primary aim of this work is to provide simultaneous spacecraft orbit estimation and control base...
Determining spacecraft attitude in real time using only magnetometer data presents a challenging fil...
This paper describes a prototype PC-based system that uses measurements from a three-axis magnetomet...
A single, augmented Extended Kalman Filter (EKF) which simultaneously and autonomously estimates spa...
An Unscented Kalman Filter (UKF) for estimation of the attitude and rate of a spacecraft using only ...
Attitude determination algorithms that requires only the earth's magnetic field will be useful for c...