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Resolution Of February 9, 2015, Of The University Of Vigo, Which Publishes Curriculum Of Master In Telecommunication Engineering.

Original Language Title: Resolución de 9 de febrero de 2015, de la Universidad de Vigo, por la que se publica el plan de estudios de Máster en Ingeniería de Telecomunicación.

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Obtained the verification of the Plan of Studies by the Council of Universities, prior to the positive report of the Agency for the Quality of the University System of Galicia (ACSUGA).

Established the official character of the title by Agreement of the Council of Ministers of 14 November 2014 (published in the BOE of 29 December 2014 by Resolution of the General Secretariat of the Universities of 24 November 2014 2014).

For the purpose of compliance with the provisions of article 35.4 of the Organic Law 6/2001 of 21 December, of Universities, and in the wording given by the Organic Law 4/2007 of 12 April, which provide that the Rectors and the Universities must order the publication in the "Official State Gazette" (BOE) and in the "Official Journal of Galicia" (DOG), in this case, of the first paragraph of section 5.1 of the Memory for the application for verification of titles According to Annex I to Royal Decree 1393/2007 of 29 October, according to Annex I of the Royal Decree 1393/2007, 2008 of the Subdirectorate General of Academic Coordination and Legal Regime of the Ministry of Science and Innovation, concerning the structure of the teachings, and according to Royal Decree 861/2010 of 2 July.

This Rectorate resolves:

Publish the curriculum leading to obtaining the official degree of university master's degree in Telecommunication Engineering from the University of Vigo, which is included in the annex to this resolution.

Vigo, February 9, 2015. -Rector, Salustiano Mato of the Church.

ANNEX

UNIVERSITY MASTER IN TELECOMMUNICATIONS ENGINEERING

Knowledge Branch: Engineering and Architecture

participating universities: Vigo

Table 1. Distribution of ECTS credits according to type of material

Type of matter

Optives

45

External Practices

0

End Job

30

Credits

120

Table 2. Master's, credits, and modules

Assigning

5

5

5

ECTS

Character

Module

The Telecommunications Engineering in the Information Society.

5

module I: Required Subjects.

Submodule 1A: Technological Management of Telecommunication Projects.

of Telecommunication Projects.

5

Required.

Senal Processing in Communications.

5

Required.

Radio.

5

5

5

5

5

5

5

5

Technologies.

5

5

5

5

and Photonics for Communications.

5

Required.

Digital Electronic Systems.

5

Required.

Communications.

5

II: Radiocommunication Specialty.

Submodule 2A: Radiocommunication I.

Antennas.

5

Optional

Lab.

5

5

Optional.

Optional.

Submodule 2B: Radiocommunication II.

5

Optional.

Mobile Communications Wireless.

5

Optional.

Engineering.

5

Optional

Table_table_izq"> Module III: Specialty: Telematics.

Submodule 3A: Telematics I.

and Computer Networks Ubiquitous.

5

Optional.

Web Engineering.

5

Optional.

Distributed Computing.

5

Optional.

Submodule 3B: Telematics II.

Analysis.

5

Optional.

5

5

5

Optional.

5

Optional.

5

Module IV: Specialty: Electronics.

Submodule 4A: Electronics I.

Hardware/Embedded Systems Software codesign.

5

Optional.

Design and Manufacture of Integrated Circuits.

5

5

Optional.

Optional.

5

Optional.

Submodule 4B: Electronics II.

Implementation and Operating Electronic Equipment.

5

Optional.

Matter

Digital Communications.

Systems.

Mobile Applications.

Microwave and Millimeter Wave Circuit Design and CAD.

5

Practices in Enterprise II.

ECTS

Character

Module

5

Optional.

Module V: Specialty: Signal Processing for Communications.

Submodule 5A: Signal Processing for Communications I.

Processing in Audiovisual Systems.

5

Optional

Multimedia Communications.

5

Real.

5

Optional.

Submodule 5B: Signal Processing for Communications II.

Systems.

5

Optional.

5

5

Numeric Optimization in Telecommunications.

5

VI: Optives.

Mathematical Models and Numeric Simulation.

5

Optional.

Data Protection Techniques.

5

Optional.

5

Optional.

5

5

Optional.

5

Optional

5

Optional.

Radionavigation.

5

Optional

5

Optional

Radar.

5

5

Optional.

5

Optional

5

Sensors

5

Optional.

Electronics Lab for Communications.

5

Optional

Optional.

5

Optional.

in Companies III.

5

Optional.

5

Optional

Collaborative Work.

5

Optional.

-Computer Interaction.

5

Optional

5

Optional

Telecommunications.

5

Optional.

Piezoelectric Transductors and Applications.

5

Optional.

linear algebra in Telecommunication Engineering.

5

Optional.

30

Required.

Module VII: Job End Job Master.

This master consists of four specialties: 1. Speciality: Radiocommunication, 2. Specialty: Telematics, 3. Specialty: Electronics and 4. Specialty: Signal Processing for Communications.

In the first course, students have to enroll from the 45 ECTS required from Module I and the 15 ECTS from the submodule corresponding to the specialty chosen. In the second course, the students have to enroll from 15 ECTS of the submodule corresponding to the specialty of their choice, of 15 optional ECTS of module VI and of the 30 ECTS of the Work End of Master.

In order to obtain the degree of Master's degree in Telecommunication Engineering, the students must exceed the 120 ECTS of which the master's degree consists.