Profesores
Led by industry leaders
Prof. Dr. José Manuel Andújar Márquez
Master's Director
Professional Category: University Professor
Department: Electronic Engineering, Computer Systems and Automation
University: Huelva
Academic Assistant Director
Professional Category: University Professor
Department: Systems Engineering and Automatics.
University: Sevilla
Prof. Dr. Miguel Ángel Martínez Bohórquez
Academic Secretary
Professional Category: University Professor
Department: Electronic, Computer Systems and Automation Engineering
University: Huelva
D. David Rodríguez Fernández
Administration
Professional Category: Administrative
University: Huelva
Faculty
The Master has a high-level multidisciplinary teaching team, formed by professionals from the university, aerospace, defense and technology industry. Each professor provides direct experience in real projects with RPAS/UAS, guaranteeing an updated, applied and internationally employable training for the student.
José Antonio Adame Carnero
Physicist Atmospheric Sounding Station (INTA)
Subjects:
Atmosphere and Meteorology
José Manuel Andújar Märquez
Professor at the University of Huelva, Director of the master's degree and CITES
Subjects:
The UAS System - General, TFM
Álvaro Gómez Villegas
Deputy Director of INTA's Arenosillo Center (CEDEA).
Subjects:
The UAS System - General, Launch and Recovery Systems, UAS-based Mobility, TFM
Miguel Torres Garcia
Professor at the University of Seville
Subjects:
Energy and Propulsion
Abiodun Abiola
CITES research staff of the University of Huelva
Subjects:
Energy and Propulsion
Gustavo Alonso Rodrigo
Professor at the Universidad Politécnica de Madrid
Subjects:
Energy and Propulsion
Antonio Franco Espín
Associate Professor at the University of Seville
Subjects:
Energy and Propulsion
Francisco Gavilán Jiménez
Associate Professor at the University of Seville
Subjects:
Flight Dynamics, Flight Control Systems
Alfonso Valenzuela Romero
Professor at the University of Seville
Subjects:
Flight Dynamics, Rotary Wing UAS, UAS Integration in Airspace and ATC1
Carlos Bordons Alba
Professor at the University of Seville
Subjects:
Flight Control Systems
José Ramón Domínguez Frejo
Professor at the University of Seville
Subjects:
Flight Control Systems
Julio César Sánchez Merino
Permanent Labor Professor at the University of Seville
Subjects:
Estimation and Navigation
Rafael Vázquez Valenzuela
Professor at the University of Seville
Subjects:
Estimation and Navigation
Francisco José Macías Beltrán
Aeronautical Engineer of INTA
Subjects:
Pseudosatellites (HAPS), 13
Enrique Babio Fernández
Head of the Flight Science Department "Skydweller Aero".
Subjects:
Pseudosatellites (HAPS)
Samuel Moya Mateo
Research Electronics Engineer at INTA
Subjects:
Swarms and cooperative flights
Ricardo Borobia Moreno
INTA Senior Scientist
Subjects:
Swarms and cooperative flights, Payloads and anti-drone systems and Civil and military UAS operations and maintenance.
Manuel Gil Ortega Linares
Professor at the University of Seville
Subjects:
rotary-wing UAS
Jesús Javier Fernández Orio
Operations in Flight Test Area (Flight Physics Dept. at INTA)
Subjects:
UAS Avionics Systems
María de los Ángeles Martín Prats
Professor at the University of Seville
Subjects:
UAS Avionics Systems
Joaquín Bernal Méndez
Professor at the University of Seville
Subjects:
UAS Avionics Systems
Antonio Leopoldo Rodríguez Vázquez
Engineering Manager at Skylife Engineering S.L.
Subjects:
UAS Avionics Systems
Antonio Romero Jimenez
Flight Safety Manager at INTA's "Arenosillo" Center (CEDEA).
Subjects:
Communications and network systems
Juan José Murillo Fuentes
Professor at the University of Seville
Subjects:
Communications and network systems
Luis Javier Amor Urbano
Aeronautical Engineer of INTA
Subjects:
Payloads and Anti-drone Systems
Juan José González Quiñones
Civil Engineer. Researcher at the University of Granada
Subjects:
Payloads and Anti-drone Systems
Rafael Garrido Bohorquez
Head of INTA Operations Unit
Subjects:
Payloads and Anti-drone Systems
Juan Luis Chulilla Cano
CEO of Red Team Shield, LTD.
Subjects:
Payloads and Anti-drone Systems
Antonio Mota Sandoval
CEO of Aerosolutions
Subjects:
Integration of UAS in airspace and ATC and Operations and maintenance of civil and military UAS.
Arturo Aquino Martín
Teaching Professor and Researcher at the University of Huelva and CITES
Subjects:
Artificial intelligence based applications
Óscar González Espasandín
Head of INTA's Panel Testing Laboratory
Subjects:
UAS Regulations, Qualification and Certification
Amaya Pérez Fernández
Aeronautical Engineer of INTA
Subjects:
UAS Regulations, Qualification and Certification
Elsa Solera de Andrés
Aeronautical Engineer of INTA
Subjects:
UAS Regulations, Qualification and Certification
Rodrigo Gamero Medina
Aeronautical Engineer of INTA
Subjects:
UAS Regulations, Qualification and Certification
Óscar Ejarque Escudero
Head of the Avionics and Cockpit Laboratory, INTA
Subjects:
UAS Regulations, Qualification and Certification
César García de Torres
Head of INTA's Test Operations Laboratory
Subjects:
UAS Regulations, Qualification and Certification
Rodrigo Gamero Medina
Aeronautical Engineer of INTA
Subjects:
UAS Regulations, Qualification and Certification
Óscar Ejarque Escudero
Head of the Avionics and Cockpit Laboratory, INTA
Subjects:
UAS Regulations, Qualification and Certification
Solve your doubts
Who is the Master addressed to?
The recommended profile for admission to the Master's Degree is to be in possession of a university degree in Engineering, Science or its equivalent. However, the Master's Academic Committee may consider other academic degrees for admission, after analyzing the student's curriculum.
For students who have not yet completed their university studies, but are close to completing them, the Master's Academic Committee may authorize enrollment. However, once they have passed the Master's program, they will not be able to apply for the degree until they have official documentation proving that they have completed their university degree. In the meantime, the Master's Secretary's Office may issue a certificate of completion.
Where is the Master's program offered?
The Master's Degree is mostly taught at the School of Engineering of the University of Huelva (Huelva) and at the "CEUS-CEDEA" centers of the National Institute of Aerospace Technology (Moguer).
How long is the Master's program?
The Master has a duration of 450 hours spread over approximately 8 months (from November to June of the following year). The course, which includes academic and practical activities at the University of Huelva and at the National Institute of Aerospace Technology (INTA), starts at the beginning of November and ends at the end of June of the following year. During the whole course the students will carry out the Master's Final Project.
What are the career opportunities?
- Design and construction of civil and military RPAS.
- Propulsion, power sources and energy.
- Control, navigation and simulation systems.
- Avionics, communications and networks.
- Civilian and military payloads.
- Civilian and military RPAS operations and maintenance.
- RPAS regulations, qualification and certification.
- Entrepreneurship option for the creation of your own company.
What is the cost of the Master?
The Master has a cost of 6.000€, which can be paid in 2 installments.
How many students are admitted per course?
A maximum of 30 students are admitted for each edition of the Master in order to guarantee the quality of training and the individualized follow-up of each student.
How are students selected?
Upon pre-enrollment, students must submit documentation regarding their university education and curriculum vitae which, once analyzed by the Master's Academic Committee, allows establishing an order of priority to carry out the enrollment. At all times the student is personally informed of the process.
When does the academic year begin and end?
The academic and practical activities at the University of Huelva (UHU) and at the National Institute of Aerospace Technology (INTA), begin at the beginning of November and end at the end of June of the following year. During the whole course the students will carry out the Master's Final Project.
What professional skills do I acquire in the Master's program?
- Have basic knowledge of atmosphere and meteorology.
- Acquire knowledge of meteorology applied to aviation.
- To know sources of information that show predictions of the behavior of the atmospheric environment, as well as the interpretation of the same.
- Understand how a UAS flies, in all phases of flight.
- Analyze UAS performances.
- Understand how to control a UAS.
- To know the techniques and control systems applicable to UAS.
- Analyze the stability of the UAS.
- Understand how the UAS responds to the actuation of control surfaces.
Analyze flight trajectories. - Analyze flight operations.
- Understand the fundamentals of rotary wing UAS flight.
- To understand the fundamentals of propulsive force generation in aircraft.
- To know the air navigation system.
- Understand how the different navigation systems work.
- Perform route planning.
- To know the basic fundamentals of the electrical and electronic systems on board a UAS.
- To know the classification, typology, applications, industry and market of UAS.
- Understand the fundamentals of batteries and supercapacitors.
- To know the particularities of power plants for UAS.
- To know the rules and regulations for the integration of UAS in the airspace.
- To know the systems for the integration of UAS in the airspace.
- Know the regulations and processes for UAS qualification and certification.
- Know the fundamentals of UAS design and manufacturing processes.
- To know UAS maintenance techniques and processes.
- To know the advanced applications of UAS.
- To know the instrumentation and data fusion techniques applicable to UAS.
- To know the modeling and simulation techniques applicable to UAS.
- Knowledge of communication systems and networks and their regulations.
- To know and know how to ship payloads applicable to UAS.
- To have an overview of UAS on-board perception systems, as well as of artificial vision techniques for their maximum exploitation.
- Have an overview of the scientific, technological and commercial scope of UAS.
- To have an overview of the job opportunities in the UAS field.
- Have an overview of the prospects for the development of UAS technologies and market.
- Know how to perform technical inspections with UAS.
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