Subjects
No. | Subject | ECTS | Typology | Four-month period | CONTENTS |
1 | Orbital Dynamics | 5 | Optional | 1 | Astrodynamics; orbits; orbital elements; spread; Basic Mission Analysis Tools (traces, coverage, visibility, Eclipse calculation) |
2 | Communication and Electronics for Aerospace Engineers | 5 | Optional | 1 | Electronic Communications Systems; Electronic systems for navigation; Digital signal treatment; Radiofrequency and radiopropagation systems |
3 | Space Environment | 5 | Mandatory | 1 | Solar system; Magnetosphere; Environment in low orbit; plasmas; Material effects; Effects in humans |
4 | Spacecraft Dynamics | 5 | Mandatory | 1 | Representation of the attitude; Quaternions; kinematic and dynamic of attitude; flexibility effects; sensors and actuators |
5 | Spacecraft Systems | 5 | Mandatory | 1 | Launch system; propulsion; power; Thermal control; configuration and structure; attitude and orbit control; Communications and Data Management |
6 | Satellite Electronic Systems | 5 | Mandatory | 1 | Types of instruments; Earth observation sensors; scientific missions; useful load design; Concept of operations |
7 | Ground segment and on-board computer | 5 | Mandatory | 1 | Earth stations; operations; Support in Land of Loads; Processing and Data Correction |
8 | Space Mission Design and Operations | 5 | Mandatory | 2 | Missions design and planning; vehicle configuration; Project and Risk Management |
9 | ORBITAL CAPLIED MECHANICS | 5 | Optional | 2 | Precise propagation; uncertainty; determination of orbits; problem of the three bodies; Halo orbits |
10 | Space Communications | 5 | Optional | 2 | Satellite communications; earthly stations; Radioenlace; modulation; multiplexation; GNSS |
11 | Spacecraft Guidance and Navigation | 5 | Optional | 2 | CNG; ADCS; optimal trajectories; Estimation of attitude and orbit; Kalman filter |
12 | Electronic Components and Systems for Space | 5 | Optional | 2 | Electronic component and systems test; Design for qualification; Programmable space devices |
13 | Artificial Intelligence for Space Applications and Earth Observation Missions | 5 | Optional | 2 | Deep Learning; Reinforcement Learning; mathematical programming; heuristic algorithms; IA applied to observation and planning missions |
14 | Master's ahesis | 15 | Master's End Work | 2 | All contents of the title |