1044962 - CONTROL SYSTEMS |
The course is focused on the basic elements of the analysis and design of linear control systems.
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First semester |
9 |
ING-INF/04 |
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1051402 - SPACEFLIGHT MECHANICS
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The course aims at developing the fundamental engineering aspects of orbital and attitude dynamics of rigid spacecraft, starting from ideal conditions (Keplerian motion and free-spinning spacecraft), then including relevant practical aspects, such as the effects of perturbing and control force and torques, up to the determination of control and maneuver strategies in response of mission requirements. At the end of the course, the student is expected 1) to understand the most relevant aspects of spacecraft dynamic behavior; 2) to solve problems which requires the determination of orbit features, orbital maneuvers or characterize attitude motion of a rigid spacecraft.
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First semester |
9 |
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MOD.1 - ORBITAL MECHANICS |
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First semester |
3 |
ING-IND/03 |
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MOD.2 - FUNDAMENTALS OF ATTITUDE DYNAMICS |
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First semester |
6 |
ING-IND/03 |
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1051403 - COMPRESSIBLE FLOWS
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The main objective of the course is to introduce the student to fundamental laws governing compressible flows, under subsonic and supersonic conditions. During a first phase the solution of quasi-1D flows will be approached, with application to nozzle, air intake and supersonic wind tunnels. In the following application to subsonic and supersonic wing will be conducted. Basic knowledge of hypersonic flows: Newtonian theory. Numerical tools for simulation of compressible flows will be provided. The main objective is to introduce the student to the modern techniques of numerical analysis applied to gas dynamics. The main focus will be on the definition of general criteria for the development of numerical schemes and on their implementation in numerical codes for the solution of the multi-dimensional Euler equations.
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First semester |
9 |
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MOD.1 - THEORY OF COMPRESSIBLE FLOWS |
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First semester |
3 |
ING-IND/06 |
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MOD.2 - NUMERICAL METHODS COMPRESSIBLE FLOWS |
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First semester |
6 |
ING-IND/06 |
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AAF1147 - OTHER USEFUL SKILLS FOR INCLUSION IN THE WORLD OF WORK |
In addition to the 12 teaching courses provided for by the degree programme of the CdLM AP (degree course), students should seek to attain additional experience. This might be represented by an internship on the premises of a public or private institute, or by participating in design competitions, collaborating in design experiments, taking part in conventions, conferences, seminars or workshops, becoming involved in exhibitions, etc.
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First semester |
1 |
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1056174 - AEROSPACE STRUCTURES
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Give the students the methodologies for the evaluation of the mechanical environment and for the analysis generally required for the synthesis and for the design of structures in the aero-space field (such as wings, launchers, satellites). Analytical methods required for the analysis of thin-walled sections and the semi-mono-cocque strucure, both statically and dynamically, will be presented. Fundamental knowledge on the analysis of the structural behavior through the Finite Element Method will be provided.
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Second semester |
9 |
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MOD.1 - FUNDAMENTALS OF AEROSPACE STRUCTURES |
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Second semester |
3 |
ING-IND/04 |
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MOD.2 - FINITE ELEMENT ANALYSIS |
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Second semester |
6 |
ING-IND/04 |
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1051386 - SPACE MISSIONS AND SYSTEMS |
Provide basic knowledge on the design of space missions, and on spacecraft navigation and attitude control. Ability to dimension and design simple systems for orbit and attitude determination and control. Knowledge of space mission phases and operations.
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Second semester |
9 |
ING-IND/05 |
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1051405 - SPACE PROPULSION
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To provide the fundamental theory and physico-mathematical tools necessary for the analysis and design of rockets. To identify the specific requisites and performance parameters of space propulsion systems. To discuss the main features and application fields of the available options.
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Second semester |
9 |
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MOD.1 - FUNDAMENTALS OF AEROSPACE PROPULSION |
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Second semester |
6 |
ING-IND/07 |
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MOD.2 - ROCKET PROPULSION |
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Second semester |
3 |
ING-IND/07 |
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