In normal working conditions it is possible to achieve sufficient attitude estimation accuracy for a satellite using regular Kalman filter algorithm. On the other hand, when there is a fault in the measurements, the Kalman filter fails in providing the required accuracy and may even collapse over time. In this paper, a Robust Kalman filtering method is proposed for the attitude estimation problem. By using the proposed method both the Extended Kalman Filter and Unscented Kalman Filter are modified and the new algorithms, which are robust against measurement malfunctions, are called Robust Extended Kalman Filter and Robust Unscented Kalman Filter, respectively. A multiple scale factor based adaptation scheme is preferred for adapting the fil...
For a small satellite, the processor onboard the attitude determination and control system (ADCS) is...
Abstract: Kalman Filter using magnetometer, sun sensor and angular rate sensor measurement...
The aim of this work is to test an algorithm to estimate, in real time, the attitude of an artificia...
When a pico satellite is under normal operational conditions, whether it is extended or unscented, a...
When a pico satellite is under normal operational conditions, whether it is Extended or Unscented, a...
Unscented Kalman filter (UKF) is a filtering algorithm that gives sufficiently good estimation resul...
Unscented Kalman Filter (UKF) is a filtering algorithm which gives sufficiently good estimation resu...
ABSTRACT The non-linear estimators are certainly the most important algorithms applied to real probl...
Determining the process noise covariance matrix in Kalman filtering applications is a difficult task...
This paper mainly focuses on the maneuver of the satellite in orbit. A non-linear multi-inputs multi...
Thus far, Kalman filter based attitude estimation algorithms have been used in many space applicatio...
Unscented Kalman Filter (UKF) is a filtering algorithm which gives sufficiently good estimation resu...
In this thesis, an extended Kalman filter formulation for attitude estimation using inertial sensors...
Two non-traditional approaches for nanosatellite attitude estimation are investigated. In the non-tr...
In the autumn of 2006 a satellite project was started at NTNU. The goal of the project is two-folded...
For a small satellite, the processor onboard the attitude determination and control system (ADCS) is...
Abstract: Kalman Filter using magnetometer, sun sensor and angular rate sensor measurement...
The aim of this work is to test an algorithm to estimate, in real time, the attitude of an artificia...
When a pico satellite is under normal operational conditions, whether it is extended or unscented, a...
When a pico satellite is under normal operational conditions, whether it is Extended or Unscented, a...
Unscented Kalman filter (UKF) is a filtering algorithm that gives sufficiently good estimation resul...
Unscented Kalman Filter (UKF) is a filtering algorithm which gives sufficiently good estimation resu...
ABSTRACT The non-linear estimators are certainly the most important algorithms applied to real probl...
Determining the process noise covariance matrix in Kalman filtering applications is a difficult task...
This paper mainly focuses on the maneuver of the satellite in orbit. A non-linear multi-inputs multi...
Thus far, Kalman filter based attitude estimation algorithms have been used in many space applicatio...
Unscented Kalman Filter (UKF) is a filtering algorithm which gives sufficiently good estimation resu...
In this thesis, an extended Kalman filter formulation for attitude estimation using inertial sensors...
Two non-traditional approaches for nanosatellite attitude estimation are investigated. In the non-tr...
In the autumn of 2006 a satellite project was started at NTNU. The goal of the project is two-folded...
For a small satellite, the processor onboard the attitude determination and control system (ADCS) is...
Abstract: Kalman Filter using magnetometer, sun sensor and angular rate sensor measurement...
The aim of this work is to test an algorithm to estimate, in real time, the attitude of an artificia...