The specific objectives which the students will reach by taking this MSc will be flexible, in the sense that during the period of training in the Companies/Organizations collaborating with the MSc as well as during the realization of the Degree Project in the Companies/Organizations facilities, the students will have the chance to increase their knowledge about several aspects of the wide range of technologies regarding the field of RPAS. Nevertheless, and as a general rule, the specific objectives requested will be the following:

 

 
  • To have basic knowledge about atmosphere and meteorology.
  • To acquire knowledge about meteorology applied to aviation.
  • To know atmospheric forecast resources as well as to interpret them.
  • To know the origin and development of the RPAS.
  • To know the concept and components of the RPAS.
  • To know the most usual missions of the RPAS.
  • To know and be able to classify the RPAS into categories.
  • To know the industry and market of the RPAS.
  • To understand the basis of the generation of the propulsion power in the aircraft.
  • To understand how the RPAS fly , in every phase of the flight.
  • To analyze the performances of the RPAS.
  • To understand the basis of the photovoltaic and fuel cell systems.
  • To understand the basis of the batteries and supercondensers.
  • To be able to design renewable energy hybrid systems.
  • To know the propulsion systems for the RPAS.
  • To know the special features of the RPAS power plants.
  • To be able to control a RPAS.
  • To know the techniques and RPAS application control systems.
  • To analyze the stability of the RPAS.
  • To understand how the RPAS reacts to the activation of control surfaces.
  • To analyze flight trajectories.
  • To analyze flight operations.
  • To know the processes and procedures of design, development and assembly of RPAS.
  • To know the techniques of modeling and simulation of application to RPAS.
  • To understand the basis of the flight of rotary wing RPAS and its special features.
  • To know the techniques, procedures and systems of aerial navigation.
  • To understand how the different navigation systems work.
  • To be able to make a route planning.
  • To know the basis of the electrical and electronic systems on board of RPAS.
  • To know and be able to board correctly the loads of application of RPAS.
  • To know the communication systems and application networks of RPAS and its rules and laws.
  • To know the rules and regulations for the integration of RPAS in the airspace.
  • To know the systems for the integration of the RPAS in the airspace.
  • To know the rules and procedures for the qualification and certification of the RPAS.
  • To know the techniques and procedures for the maintenance of the RPAS.
  • To know the advanced applications of the RPAS and their trends for the future.
  • To know the techniques of compression and fusion of data for application to the RPAS.
  • To know and be able to handle RPAS simulators.
  • To know the distribution , equipment, uses and functions of RPAS ground stations.
  • To be able to complete an engineering project in the field of the RPAS.

 

 

 

 
 
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