Most satellites use an on-board attitude estimation system, based on available sensors. In the case of low-cost satellites, which are of increasing interest, it is usual to use magnetometers and Sun sensors. A Kalman filter is commonly recommended for the estimation, to simultaneously exploit the information from sensors and from a mathematical model of the satellite motion. It would be also convenient to adhere to a quaternion representation. This article focuses on some problems linked to this context. The state of the system should be represented in observable form. Singularities due to alignment of measured vectors cause estimation problems. Accommodation of the Kalman filter originates convergence difficulties. The article includes a n...
In this study an unscented Kalman filter (UKF) based algorithm for the estimation of magnetometer bi...
A low-cost three-axis attitude determination estimator well suited for small spacecraft with relaxed...
In this thesis, an extended Kalman filter formulation for attitude estimation using inertial sensors...
Most satellites use an on-board attitude estimation system, based on available sensors. In the case ...
Abstract: Kalman Filter using magnetometer, sun sensor and angular rate sensor measurement...
Kalman Filter (KF) based algorithms are the most frequently employed attitude estimation algorithms....
The design and testing of an Extended Kalman Filter (EKF) for ground attitude determination, misalig...
In this study an unscented Kalman filter (UKF) based magnetometer and gyro bias estimation algorithm...
In order to control the orientation of a satellite, it is important to estimate the attitude accurat...
Precision attitude determination for recent and planned space missions typically includes quaternion...
An Unscented Kalman Filter (UKF) for estimation of the attitude and rate of a spacecraft using only ...
Prediction Algorithms for the Attitude Estimator The attitude estimator is an extended Kalman filte...
A three-axis Magnetometer/Kalman Filter attitude determination system for a spacecraft in low-altitu...
The magnetometer has long been a reliable, inexpensive sensor used in spacecraft momentum management...
This paper proposes using TRIAD and Unscented Kalman Filter (UKF) algorithms in a sequential archite...
In this study an unscented Kalman filter (UKF) based algorithm for the estimation of magnetometer bi...
A low-cost three-axis attitude determination estimator well suited for small spacecraft with relaxed...
In this thesis, an extended Kalman filter formulation for attitude estimation using inertial sensors...
Most satellites use an on-board attitude estimation system, based on available sensors. In the case ...
Abstract: Kalman Filter using magnetometer, sun sensor and angular rate sensor measurement...
Kalman Filter (KF) based algorithms are the most frequently employed attitude estimation algorithms....
The design and testing of an Extended Kalman Filter (EKF) for ground attitude determination, misalig...
In this study an unscented Kalman filter (UKF) based magnetometer and gyro bias estimation algorithm...
In order to control the orientation of a satellite, it is important to estimate the attitude accurat...
Precision attitude determination for recent and planned space missions typically includes quaternion...
An Unscented Kalman Filter (UKF) for estimation of the attitude and rate of a spacecraft using only ...
Prediction Algorithms for the Attitude Estimator The attitude estimator is an extended Kalman filte...
A three-axis Magnetometer/Kalman Filter attitude determination system for a spacecraft in low-altitu...
The magnetometer has long been a reliable, inexpensive sensor used in spacecraft momentum management...
This paper proposes using TRIAD and Unscented Kalman Filter (UKF) algorithms in a sequential archite...
In this study an unscented Kalman filter (UKF) based algorithm for the estimation of magnetometer bi...
A low-cost three-axis attitude determination estimator well suited for small spacecraft with relaxed...
In this thesis, an extended Kalman filter formulation for attitude estimation using inertial sensors...