A simulation environment to predict spacecraft attitude and trajectories
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Updated
Aug 19, 2020 - C++
A simulation environment to predict spacecraft attitude and trajectories
VSCMG Dynamical stepper with python wrapper!
Repository dedicated to my final year satellite design course in Bandung Institute of Technology
Simulation of satellite attitude dynamics, determination and control using simulink; considering sensor errors
Developed an algorithm for Attitude Determination and control of a 1DOF 1U Cubesat.
Assignment for Spacecraft Attitude Dynamics and Control course at Politecnico di Milano, academic year 2020-2021.
This repository includes different versions of the prescribed-time controller as Simulink blocks and MATLAB script codes for engineering applications.
Fast unit quaternion code for Python written in C
This is the main repository for the codes for Spacecraft Attitude Control course Final Project - Politecnico di Milano
Book Website: Dynamic System Modelling & Analysis with MATLAB & Pythobn
Application of kynodynamical motion planning algorithms to perform attitude maneuvers for a magnetorquer-actuated LEO satellite with pointing constrains.
Main repository for the codes for the final project of the course ' Spacecraft attitude dynamics' at Politecnico di Milano
Attitude Dynamics Simulator of a CubeSat
Toolbox for kinematics and attitude dynamics in Python. Supports multiple attitude representations and forward/inverse mappings.
Documents for Spacecraft Simulation Environment
Files created for Sistemi di Guida e Navigazione project. I simulate a VTOL (drone) trajectory and attitude and implement vary static and dynamic filters to estimate the attitude.
Spacecraft Simulation Environment Core codes
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