The on-board attitude estimation represents a major task of the attitude and orbit determination and control subsystem as it is necessary to guarantee the spacecraft pointing accuracy as prescribed by the mission requirements. In a space mission each components requires a deep test campaign as well as the attitude estimation techniques where the Monte Carlo statistical approach represents the final step to fully validate the attitude determination algorithms. Motivated by this needs, a simulation tool suitable to develop, test and finally validate all the algorithms selected for the mission has been conceived and implemented in the ALMASat-EO context
Satellite attitude determination by simulation program using Monte Carlo sampling and Kalman-Schmidt...
In this paper, a star tracker attitude estimation procedure with increased robustness and efficiency...
The main objective of this research is to provide attitude estimation, orbit estimation, and attitud...
The on-board attitude estimation represents a major task of the attitude and orbit determination and...
This master thesis project describes the design, simulation and implementation of Attitude Determin...
Monte Carlo analysis is employed to evaluate the ability of an autonomous satellite navigation syste...
Attitude determination represents a fundamental task for most of the spacecrafts. It relies on three...
The AOCS of a spacecraft is the responsible for determining the attitude of the satellite and contro...
In this paper we present a method for attitude determination using star tracker sensor measurements...
Abstract: Attitude determination algorithms based on Kalman filter are considered in the p...
Following the success of UWE-1 (University of Wuerzburg’s Experimental Satellite-1) and keeping in ...
A semi-physical simulation platform for attitude determination and control system is proposed to ver...
The European Student Earth Orbiter (ESEO) is the main educational project of the European Space Agen...
The NTNU Test Satellite (NUTS) project, is part of the Norwegian Student Satellite programANSAT. The...
Abstract: Cost reduction on system tests with hardware in the loop during qualification phase of the...
Satellite attitude determination by simulation program using Monte Carlo sampling and Kalman-Schmidt...
In this paper, a star tracker attitude estimation procedure with increased robustness and efficiency...
The main objective of this research is to provide attitude estimation, orbit estimation, and attitud...
The on-board attitude estimation represents a major task of the attitude and orbit determination and...
This master thesis project describes the design, simulation and implementation of Attitude Determin...
Monte Carlo analysis is employed to evaluate the ability of an autonomous satellite navigation syste...
Attitude determination represents a fundamental task for most of the spacecrafts. It relies on three...
The AOCS of a spacecraft is the responsible for determining the attitude of the satellite and contro...
In this paper we present a method for attitude determination using star tracker sensor measurements...
Abstract: Attitude determination algorithms based on Kalman filter are considered in the p...
Following the success of UWE-1 (University of Wuerzburg’s Experimental Satellite-1) and keeping in ...
A semi-physical simulation platform for attitude determination and control system is proposed to ver...
The European Student Earth Orbiter (ESEO) is the main educational project of the European Space Agen...
The NTNU Test Satellite (NUTS) project, is part of the Norwegian Student Satellite programANSAT. The...
Abstract: Cost reduction on system tests with hardware in the loop during qualification phase of the...
Satellite attitude determination by simulation program using Monte Carlo sampling and Kalman-Schmidt...
In this paper, a star tracker attitude estimation procedure with increased robustness and efficiency...
The main objective of this research is to provide attitude estimation, orbit estimation, and attitud...