Joint curriculum itinerary for the double degree
1. DescriptionA curriculum is proposed to jointly study the University Master's Degrees in Aeronautical Engineering (MIA) and in Space Systems Operation (MOSE), based on the complementarity between both degrees.
2. PurposeThe culmination of the itinerary leads to obtaining the two titles that comprise it.
3. Teaching program It has the following characteristics:
a. The optional module (35 ECTS) of the Master of Aeronautical Engineering will be taken through subjects from the Master in Space Operation Systems (20 ECTS), 10-15 ECTS from the offer of the Master of Aeronautical Engineering and up to 5 ECTS from the leveling supplements of the Master of Aeronautical Engineering.
The following subjects of the Master in Space Operation Systems (20 ECTS):
Ground Segment and On-board Computer
Satellite Electronic System
Space Environment
Space Mission Design and Operations
The specific list of subjects to be taken from among the 10 ECTS of the Master in Aeronautical Engineering is (choose 2):
Aerospace Production
Joints in Aeronautical Structures
Helicopters
Cartography Applied to Drones
Aerospace Robotics
Aircraft Trajectory Optimization
Applied Orbital Mechanics
The specific list of leveling supplements for the Master of Aeronautical Engineering from which the Academic Committee will determine one to be taken by the student or failing that, the student must take an additional subject from the previous specific list of the Master in Aeronautical Engineering.
Air Transport Complements
Aircraft and Aircraft Systems Calculations
b. The rest of the compulsory subjects will be taken during the Master's Degree in Aeronautical Engineering.
c. The remaining compulsory subjects and 15 ECTS of optional subjects will be taken for the Master in Space Systems Operation, which must include one of the following two subjects as a leveling complement for this master's degree:
Communication and Electronics for Aerospace Engineers
Orbital Dynamics
You must choose two optional subjects from the following list:
Space Communications
Spacecraft Guidance and Navigation
Electronic Components and Systems for Space
Artificial Intelligence for Space Applications and Earth Observation Missions
In summary, the following table schematically shows the list of subjects to be taken for each Master's degree.
Master in Aeronautical Engineering (MIA) | Master in Space Systems Operations (MOSE) | Credits |
Advanced Flight Mechanics |
| 5 |
Space Vehicle System (It is taught at MIA, and recognized by Spacecraft Systems of MOSE) | 4 | |
Space Vehicle Dynamics (It is taught at MIA, and recognized by Spacecraft Dynamics of MOSE) | 4 | |
Jet Engine Design |
| 4 |
Advanced Fluid Mechanics and Aerodynamics |
| 4 |
Aeroelasticity |
| 5 |
Mechanics of Composite Materials |
| 5 |
Aeronautical Organization and Air Transport |
| 5 |
Entrepreneurship |
| 3 |
| Ground Segment and On-board Computer | 5 |
| Satellite Electronic Systems | 5 |
Advanced Avionics |
| 5 |
Advanced Air Traffic |
| 5 |
Aeronautical Manufacturing Processes |
| 4 |
| Space Environment | 5 |
| Space Mission Design and Operations | 5 |
Turbomachinery Design and Heat Transfer |
| 5 |
Mechanical Design of Aerospace Components and Systems |
| 5 |
Aircraft Structural Design |
| 5 |
Airport Project and Certification |
| 5 |
MIA Elective |
| 10-15 |
| 0-5 | |
| MOSE elective | 10 |
| 5 | |
Master's Final Project |
| 12 |
| Master's Final Project | 15 |
Total | ||
4. Number of credits in the itineraryThe total number of credits for the double Master's degree is 150.
5. Access . As access requirements, it will be necessary to meet both the access requirements for the MIA and those corresponding to the MOSE, with the respective Academic Committees retaining the powers over the evaluation of candidates andDouble Master's Degree in Aeronautical Engineering and Master's Degree in Space Systems Operation Establishment of supplementary training and leveling courses as referred to in the verification reports. If supplementary MIA training is required, it will be taken in addition to the 150 credits of the double master's degree.
6. Recommended entry profileThe double degree program is geared towards students with prior undergraduate training in Aerospace Engineering.
7. Places availableInitially, 10 places are planned for this dual itinerary, a number that may be modified in subsequent courses depending on demand.
8. Teaching organization.
to. GroupsThe MOSE courses will be taken concurrently with students pursuing that degree. Similarly, the remaining MIA courses will be taught concurrently with students pursuing that degree. The timetable for these master's programs will be designed to avoid any scheduling conflicts for the dual degree.
b. Academic bodiesEach degree will be managed by its corresponding Academic Commission, which, in relation to admission to studies and the specification of the Leveling Block for each student, will act in a coordinated manner.
c. Timing of the teachingsThe following tables show the timing of the different subjects, indicating in:
GreenSubjects to be studied in the MIA.
OrangeSubjects to be studied at MOSE.
WhiteCommon subjects (to be taken in the MIA).
This table does not show the supplementary training subjects that the Academic Committee will assign individually to each student.
II. Summary of the proposal
Qualification | ECTS compulsory subjects | Optional ECTS credits* | Master's Final Project | Total ECTS credits |
MINE | 73 | 35 | 12 | 120 |
MOSE | 30 | 15 | 15 | 60 |
Double Master's Itinerary |
|
| 27 | 150 |
* Includes leveling courses in each master's program.
