Master's Degree in Aerospace Engineering - Aeronautics Programme
| I Year | |||||
| I Semester | |||||
| Teaching or training activities | Module | CFU | TAF | Mandatory/Optional | |
| Related or supplementary at the student’s choice (nota a) | 9 | C | Obbligatorio | ||
| Aerospace Advanced Structures | 9 | B | Obbligatorio |  |
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| Flight Dynamics and Simulation | 9 | B | Obbligatorio | |
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| II Semester | |||||
| Related or supplementary at the student’s choice (nota a) | 6 | C | Obbligatorio | ||
| Aircraft Aerodynamics | 9 | B | Obbligatorio | |
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| Avionics | 9 | B | Obbligatorio | |
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| I or II Semester | |||||
| Activities autonomously chosen by the student (nota d) | 0-15 | D | |
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| Annual | |||||
| Aerospace Design Project (nota b) | Structures | 3 | B | Opzionale | |
| Systems | 3 | ||||
| Fluid dynamics | 3 | ||||
| II Year | ||
| I or II Semester | ||
| Teaching or training activities | CFU | TAF |
| Characterising training activities chosen by the student (two 9-Credits courses selected among the ones in track table B1, nota c) | 18 | B |
| Curricular training activities chosen by the student (two 6-Credits courses selected among the ones in track table B1, nota c) | 12 | |
| Activities autonomously chosen by the student (nota d) | 15-A | |
| Further training activities (nota e) | 12 | |
| Final test (nota f) | 12 | |
The fulfillment of the conditions indicated in notes a), b), c) and d1) represents an automatic approval plan for which the student must give to the Secretariat, within the time allowed for the submission of the Study Plans by the didactic regulations, only the communication of the chosen address ("Aeronautics", "Fluid dynamics/Propulsion" or "Space").
Different solutions can be followed upon presentation of an individual study plan, to the Students' Secretariat of the Engineering Teaching Area of the Polytechnic and Science School of Base, exclusively in the terms established by the Educational Regulations. The Commission for Didactic Coordination of the Master's Degree Course reserves the right to decide on their approval or not on the basis of a clear justification expressed by the student and consistency with the teaching order of the course of studies in the academic year of enrollment, as required by law.
| Table A First year - related and supplementary activities, at the choice of the student |
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| I Semester | ||||
| Teaching or training activities | Moduloe | CFU | TAF | |
| Mechanics applied to Aerospace Engineering | 9 | C | |
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| Mathematical Methods for Engineering | 9 | C |  |
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| II Semester | ||||
| Reliability and risk in Aerospace Engineering | 6 | C | |
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| Economy and organization of aerospace industry | 6 | C | |
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| Tabella B1 Second Year - Characterising training activities chosen by the student |
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| I Semestre | ||||
| Teaching or training activities | Module | CFU | TAF | |
| Numerical and experimental methods for aircraft Design | 9 | B | |
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| Unmanned Aircraft Systems | 9 | B | |
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| Aerospace Constructions II | 9 | B | |
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| Structural dynamics | 9 | B | |
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| Aeroelasticity | 6 | B | |
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| Air Traffic Management and Control | 9 | B | |
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| Aircraft Operations | 6 | B | |
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| II Semester | ||||
| Rotary wing Aerodynamics | 6 | B | |
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| Aircraft Design | 9 | B | |
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| Fluid-Structure interaction | 6 | B | |
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| Aircraft on board systems | 6 | B | |
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| Flight test | 6 | B | |
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| Table C Training activities suggested for the autonomous choise, Type D |
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| Teaching or training activities | Module | CFU | Semester | ||
| Geometrical Modelling and virtual Prototyping for Aerospace Engineering | 9 | I | |
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| Combustion and Fluid Dynamics of reactive systems | 6 | I | From the Master’s Degree in Chemical Engineering | |
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| Hybrid Propulsion systems | 6 | II | From the Master’s Degree in Mechanical Engineering for Energy and Environment | |
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| Statistical lab for industrial data analysis | 9 | I | From the Master’s Degree in Engineering Management | |
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| Machine Learning e big data | 9 | II | From the Master’s Degree in Autonomous Vehicle Engineering | |
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| Radar Systems | 9 | I | From the Master’s Degree in Telecommunication Engineering | |
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| Signal and Image Processing | 9 | II | From the Master’s Degree in Telecommunication Engineering | |
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| Design Principles for wind and ocean renewable energy systems | 6 | I | |
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| Electrical basics for Aeronautics | 6 | II | |
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| Electro-magnetic basics for Space applications | 9 | I | |
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| Experimental Vibroacoustics | 6 | II | |
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| Impact dynamics | 6 | II | |
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| Elastodynamics and structural health monitoring principles | 6 | II | |
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| Chemistry of Eco-Sustainable Materials For Aerospace and Energy | 9 | I | |
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| UAS SIGNATURE, COMMUNICATIONS, AND COUNTERMEASURES | EFFECTS OF PLATFORM AND MISSION ON UAS SIGNATURE | 3 | I | |
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| COMMUNICAT IONS AND COUNTERMEA SURES | 3 | I | |
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