This paper mainly focuses on the maneuver of the satellite in orbit. A non-linear multi-inputs multi-outputs model has been derived from Newton-Euler equations of motion. The dynamics is presented with control methodologies allowing the Extended Kalman Filter (EKF) to iteratively provide improved data sets with zero errors. As the system is distracted from the atmospheric swings which are random hence the problem of stochastic disturbance is furnished. A set of differential equations of two dimensional Ito stochastic type is used for modeling the said disturbances (before t = 4s is recorded). The attitude parameters are recorded in RT-LAB setup with the Extended Kalman Filter (EKF) providing adequately superior estimation outcome which ther...
We studied the nonlinear estimation problem of extended Kalman filter and applied this method to LEO...
ABSTRACT: The moment of inertia parameters play a critical role in assuring the spacecraft mission t...
In this thesis, an extended Kalman filter formulation for attitude estimation using inertial sensors...
In normal working conditions it is possible to achieve sufficient attitude estimation accuracy for a...
In the autumn of 2006 a satellite project was started at NTNU. The goal of the project is two-folded...
The main goal of this research is to establish spacecraft orbit and attitude control algorithms base...
AAUSAT3 was launched February 2013 as a science experiment for the Danish Maritime Safety Administra...
This paper investigates the fault diagnosis problem for satellite attitude control system with using...
A Kalman Filter used in antenna tracking system is to determine the optimal trajectory of a low eart...
The nonlinear problem of tracking and predicting where a satellite will be over some time can be dif...
This thesis is a part of the SSETI (Student Space Exploration Technology Initiative) project, where ...
For a small satellite, the processor onboard the attitude determination and control system (ADCS) is...
In this paper, we propose novel augmented extended and unscented Kalman filters (AEUKF) to estimate ...
This paper develops extended Kalman filtering algorithms for a generic Gough-Stewart platform assumi...
AbstractThis paper investigates the problem of two-stage extended Kalman filter (TSEKF)-based fault ...
We studied the nonlinear estimation problem of extended Kalman filter and applied this method to LEO...
ABSTRACT: The moment of inertia parameters play a critical role in assuring the spacecraft mission t...
In this thesis, an extended Kalman filter formulation for attitude estimation using inertial sensors...
In normal working conditions it is possible to achieve sufficient attitude estimation accuracy for a...
In the autumn of 2006 a satellite project was started at NTNU. The goal of the project is two-folded...
The main goal of this research is to establish spacecraft orbit and attitude control algorithms base...
AAUSAT3 was launched February 2013 as a science experiment for the Danish Maritime Safety Administra...
This paper investigates the fault diagnosis problem for satellite attitude control system with using...
A Kalman Filter used in antenna tracking system is to determine the optimal trajectory of a low eart...
The nonlinear problem of tracking and predicting where a satellite will be over some time can be dif...
This thesis is a part of the SSETI (Student Space Exploration Technology Initiative) project, where ...
For a small satellite, the processor onboard the attitude determination and control system (ADCS) is...
In this paper, we propose novel augmented extended and unscented Kalman filters (AEUKF) to estimate ...
This paper develops extended Kalman filtering algorithms for a generic Gough-Stewart platform assumi...
AbstractThis paper investigates the problem of two-stage extended Kalman filter (TSEKF)-based fault ...
We studied the nonlinear estimation problem of extended Kalman filter and applied this method to LEO...
ABSTRACT: The moment of inertia parameters play a critical role in assuring the spacecraft mission t...
In this thesis, an extended Kalman filter formulation for attitude estimation using inertial sensors...