This report studies the development of a Multiplicative Extended Kalman Filter for orbit and attitude estimation for the 10times10times20 cm CubeSat at the Norwegian University of Science and Technology (NTNU). The filter was developed in a tightly coupled manner with respect to the GPS attitude solution, based on data from differential carrier phase measurements. These measurements are aided by measurements from a three-axis magnetometer, and inertial measurements from a gyroscope. Four antennas are virtually mounted on the satellite to obtain three baselines of 1 m each. The MEKF is complemented by an integer ambiguity resolution method, which makes sure that the solution for a GPS signal is not accepted until the integrity check value f...
This paper is the second part of a series of studies discussing a novel attitude determination metho...
As a part of the CUBESAT project at the Norwegian University ofScience and Technology (NTNU), this p...
Pico- and nano-satellites, due to their form factor and size, are limited in accommodating multiple ...
This paper presents an implementation of an EKF (extended Kalman filtering) estimator for spacecraft...
Attitude determination options are limited on a CubeSat due to power, mass, and volume constraints. ...
The main goal of this research is to establish spacecraft orbit and attitude control algorithms base...
A single, augmented Extended Kalman Filter (EKF) which simultaneously and autonomously estimates spa...
In preparation for the fourth satellite in the CubeSat program at the Julius-Maximilians-Universität...
This paper proposes high-accuracy and reliable attitude measurement methods exclusive for CubeSat wi...
With the developments in the GPS receiver technology, GPS receivers have been preferable equipments ...
In this thesis, an extended Kalman filter formulation for attitude estimation using inertial sensors...
The main objective of this research is to provide attitude estimation, orbit estimation, and attitud...
In recent years algorithms were developed for orbit, attitude and angular-rate determination of Low ...
Based on magnetometer measurements only, three-axis attitude, rate, and orbit estimation are success...
In the autumn of 2006 a satellite project was started at NTNU. The goal of the project is two-folded...
This paper is the second part of a series of studies discussing a novel attitude determination metho...
As a part of the CUBESAT project at the Norwegian University ofScience and Technology (NTNU), this p...
Pico- and nano-satellites, due to their form factor and size, are limited in accommodating multiple ...
This paper presents an implementation of an EKF (extended Kalman filtering) estimator for spacecraft...
Attitude determination options are limited on a CubeSat due to power, mass, and volume constraints. ...
The main goal of this research is to establish spacecraft orbit and attitude control algorithms base...
A single, augmented Extended Kalman Filter (EKF) which simultaneously and autonomously estimates spa...
In preparation for the fourth satellite in the CubeSat program at the Julius-Maximilians-Universität...
This paper proposes high-accuracy and reliable attitude measurement methods exclusive for CubeSat wi...
With the developments in the GPS receiver technology, GPS receivers have been preferable equipments ...
In this thesis, an extended Kalman filter formulation for attitude estimation using inertial sensors...
The main objective of this research is to provide attitude estimation, orbit estimation, and attitud...
In recent years algorithms were developed for orbit, attitude and angular-rate determination of Low ...
Based on magnetometer measurements only, three-axis attitude, rate, and orbit estimation are success...
In the autumn of 2006 a satellite project was started at NTNU. The goal of the project is two-folded...
This paper is the second part of a series of studies discussing a novel attitude determination metho...
As a part of the CUBESAT project at the Norwegian University ofScience and Technology (NTNU), this p...
Pico- and nano-satellites, due to their form factor and size, are limited in accommodating multiple ...