Resolution Of April 15, 2015, Of The University Of Seville, By Which Publishes Modification Of The Curriculum Of Graduated In Telecommunications Engineering From The Technologies.

Original Language Title: Resolución de 15 de abril de 2015, de la Universidad de Sevilla, por la que se publica la modificación del plan de estudios de Graduado en Ingeniería de las Tecnologías de Telecomunicación.

Read the untranslated law here:

In accordance with the provisions of articles 26 and 28 of Royal Decree 1393 / 2007, of October 29, modified by Royal Decree 861/2010 of 2 July, which establishes the procedure for the modification of curricula already verified and once received favorable report of the Agency's knowledge of 12 June 2014 to amendments presented in the curriculum of the title of graduate/graduate in engineering of Telecommunication technologies by the University of Seville, this Chancellor, in accordance with the provisions of article 26.3 of Royal Decree 1393 / 2007 previously cited, has resolved to order the publication of the modification of the curriculum of the title of graduate/graduate in engineering of the telecommunication technologies from the University of Seville, which is structured as shown in the annex to this resolution.

Sevilla, April 15, 2015.-the President, Antonio Ramírez de Arellano López.

Annex curriculum of graduate in engineering of the telecommunication technologies by the University of Seville - mention in telematics.

-Mention in electronic systems.

-Mention in telecommunication systems.

-Mention in sound and image.

Branch of knowledge: engineering and architecture centres of teaching: school technique Superior engineering distribution curriculum credits ECTS by subject: subject credits F 60 basic training or mandatory 102 P optional 66 T thesis grade 12 Total 240 structure of the teachings by modules: module subject character credits training Basic.

Basic electronics.

(F) statistical 6.




F 6 fundamentals of programming I.

F 6 mathematics I.

F 6 mathematics II.

6 f. Organization of companies.

F 6 signals and systems.

F 6 technology devices and components.

F-6 theory of circuits.

F 6 enlargement of compulsory.

Extension of physics.

Or 6 digital communications.

Or 6 Automatic Control.

Or 6 engineering organization.

Or 6 Mathematics III.

Or 6 mathematical methods.

Or 4.50 multiservice networks.

Or 6 common to telecommunications branch.

Power electronics.

Or 4.50 Digital electronic.

Or 4.50 structure and public network protocols.

Or 6 foundations of telematic services and applications.

Or 6 fundamentals of computers.

Or 6 fundamentals of Internet.

Or 6 fundamentals of programming II.

Or 6 propagation of waves.

Or 6 telecommunication infrastructure systems.

Or 6 digital electronic systems.

Or 4.50 communication theory.

Or 6 module materials subject character credits technology specific.

Mention in telecommunication systems.

High frequency circuits.

P 4.50 advanced digital communications.

P 4.50 fundamentals of optical communications.

P 4.50 fundamentals of radio communication.

P 6 streaming media.

P 4.50 telecommunication systems projects.

P 4.50 radiocommunication systems.

P 6 emerging communications systems.

4.50 p Digital signal processing.

4.50 p Digital processing of signals in communications.

P 4.50 mention in electronic systems.

Communications circuits.

P 4.50 design electronic systems and circuits.

P 6 integrated electronics.

P 4.50 equipment for Multimedia information systems.

P 4.50 Control Engineering.

P 4.50 electronic instrumentation.

P 6 projects of electronic systems.

P 4.50 electronic communications systems.

P 4.50 electronics for signal processing.

P 4.50 electronic technology.

P 4.50 mention in sound and image.

Equipment and systems for Audio, Video and Television.

P 4.50 fundamentals of image processing.

P 4.50 acoustic engineering.

P 6 measures of noise and legislation.

P 4.50 Audiovisual production.

P 4.50 projects of sound and image.

P 4.50 Audio systems.

P 4.50 Television.

P 6 Digital Multimedia signal processing.

P 4.50 Vision.

P 4.50 mention in telematics.

Advanced network architecture.

P 6 design databases.

P 4.50 management of telecommunication networks.

P 4.50 Software engineering.

P 6 planning and simulation of networks.

P 4.50 telematics projects.

P 4.50 security.

P 4.50 advanced telematic services.

P 4.50 operating systems.

P 4.50 Teletraffic.

P 4.50 module subjects character credits electives of mention in telecommunication systems.

Mobile communications.

P 4.50 satellite communications.

P 4.50 domotics.

P 4.50 Radiodetermination and radionavigation.

P 4.50 remote systems.

P 4.50 mention electives in electronic systems.

Industrial communications and automation.

P 4.50 Microsystems.

P 4.50 robotics.

P 4.50 embedded systems.

P 4.50 high frequency technologies.

P 4.50 mention electives in sound and image.

Design of interactive applications.
P 4.50 holography and display 3d.

P 4.50 instrumentation of Audio, Video and Television.

P 4.50 techniques of animation 3d.

P 4.50 Digital Medical image processing.

P 4.50 mention electives in telematics.

Management of telematic systems.

P 4.50 design mobile applications.

P 4.50 networks of sensors and autonomous systems.

P 4.50 industrial networks.

P 4.50 distributed systems and Web services.

P 4.50 common electives.

Analysis and prevention of occupational risks.

P 4.50 bioengineering.

P 4.50 consumer electronics.

P 4.50 low voltage electrical installations.

P 4.50 computational mathematics.

P 4.50 methodology and history of engineering.

P 4.50 applied optics.

P 4.50 representation for computer graphics.

P 4.50 security networks and telematic services.

P 4.50 company practices.

P 9 work end of grade.

End of degree work.

T 12 temporal organization of the subjects of the curriculum: course duration subject character credits first.

Physical C1.

F 6 C1 fundamentals of programming I.

F 6 C1 mathematics I.

F 6 C1 mathematics II.

F 6 C1 fundamentals of computers.





F 6 C2 technology devices and components.

F 6 C2 circuits theory.

F 6 C2 fundamentals of programming II.

Or 6 C2 Mathematics III.




C1 Basic electronics.

F 6 C1 organization of companies.

F 6 C1 signals and systems.

C1 extension of physics 6 F.

Or 6 C1 fundamentals of Internet.

Or 6 C2 Automatic Control.

Or 6 C2 structure and public network protocols.

Or 6 C2 foundations of telematic services and applications.

Or 6 C2 wave propagation.

Or 6 C2 communication theory.




C1 Digital communications.

Or 6 C1 power electronics.

Or 4.50 Digital electronic C1.

Or 4.50 C1 mathematical methods.

Or 4.50 C1 multiservice networks.

Or 6 C2 system of telecommunication infrastructure.

Or 6 C2 digital electronic systems.




C1 Organization engineering.

Or 6 C2 end of degree work.

Or 12 annual A:. C1: 1st semester. C2: 2nd semester.

Note: According to available memory for verification of the title, the student, prior to the end of their studies, must demonstrate a level of proficiency in a foreign language equivalent to the B1 level of English of the common European framework of reference for languages.