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Resolution Of 16 March 2011, Of The University Of Oviedo, Publishes The Graduate Curriculum In Engineering Technologies And Telecommunication Services.

Original Language Title: Resolución de 16 de marzo de 2011, de la Universidad de Oviedo, por la que se publica el plan de estudios de Graduado en Ingeniería en Tecnologías y Servicios de Telecomunicación.

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TEXT

Obtained the verification of the study plan by the Council of Universities, prior to the approval of the National Agency for the Evaluation of Quality and Accreditation, as well as the authorization of the Autonomous Community of the Principality According to Decree 79/2010 of 30 June 2010 (published in "BOPA" on 9 July 2010), and established the official character of the title by Agreement of the Council of Ministers of 17 December 2010 (published in the "BOE" of 14 January 2011 by Resolution of the Secretary-General of the Universities of 23 December 2010),

This Rectorate, in accordance with the provisions of Article 35 of the Organic Law 6/2001, of Universities, in the wording given by the Organic Law 4/2007, has resolved to publish the plan of studies leading to obtaining the official degree of Graduate or Graduate in Engineering in Telecommunications Technologies and Services, which will be structured as set out in the Annex to this Resolution.

Oviedo, March 16, 2011. -Rector, Vicente Miguel Gotor Santamaria.

ANNEX

CURRICULUM LEADING TO GRADUATE DEGREE OR GRADUATE DEGREE IN ENGINEERING TECHNOLOGIES AND TELECOMMUNICATION SERVICES BY OVIEDO UNIVERSITY (ENGINEERING AND ARCHITECTURE BRANCH)

Distribution of the curriculum in ECTS credits by type of subject

Type of matter

0

ECTS

training (FB)

60

(OB)

108

Optives (OP)

60

0

0

0

0

0

0

0

0

0

240

Distribution of basic materials according to RD 1393/2007, of October 29, in the curriculum

Knowledge Branch

Electronic and Photonic Devices.

TOTAL.

..... .................................................. .

Matter RD 1393/2007, October 29

Linked Assignatures

Credits

Course

Engineering and Architecture.

Mathematics.

Algebra Linear.

6

1

Calculation.

6

1

.

6

1

Calculation Extension.

6

1

.

Mechanics and Termodynamics

6

1

and Electromagnetism.

6

1

Circuit Theory.

6

1

6

1

.

Enterprise.

6

1

Informatics.

6

60

Structure of the curriculum by modules and/or subjects and character of subjects

TOTAL

............................................................................................. .

Numeric Methods.

...................................................... ................ .

TOTAL

........................................................................................................... .

Telecom Network Management.

Design and Planning for Computer Networks.

4

4

4

Subjects

Character

Credits

Course

.

Mechanics and Termodynamics.

FB

6

1

Ondas and Electromagnetism.

FB

6

1

12

Mathematics.

FB

6

1

6

1

FB

6

1

.

FB

6

1

OB

6

2

TOTAL................................... ........................................ .

30

.

Enterprise.

FB

6

1

TOTAL......... .............................................. .

6

Informatics.

FB

6

1

OB

6

2

........................................................ .

12

Technology Foundations.

6

1

Electronic and Fotonic Devices.

FB

6

1

Analog Electronics Foundations.

OB

6

2

.......................... ........................ .

18

Signs and Systems.

Signs and Systems.

OB

6

2

TOTAL. ....................................................... .

6

and Computer Architecture.

OB

6

2

Network and Systems Architecture

OB

OB

OB

2

OB

OP

3

3

The '...................................................................... .

24

Foundations.

Communication Theory.

OB

9

2

OB

OB

OP

OP

21

Media

OB

9

2

Terrestrial and Satellite Path.

OP

Components on Guided Systems.

OP

6

3

Communications.

OP

6

4

TOTAL................................................. .

27

Electronic Systems.

OB

6

2

OB

OB

OB

Design of Digital Electronic Systems.

OP

6

4

Programmable Electronic Devices.

OP

6

4

TOTAL................................................ .

24

Analog Electronic Systems.

OB

3

Designing Analog Electronic Systems.

9

3

Systems Design.

OP

6

4

Electronics.

OP

6

27

Systems and Services.

OB

6

3

Basic Communications Services.

OB

6

3

Multimedia and Interactive Services.

OB

6

3

Telematics Applications.

OP

6

4

Networks and Services.

OP

6

4

TOTAL.............................................. .

30

Networks and Services.

6

3

OP

OP

6

4

and Conmutation Engineering.

OP

6

4

Management of Telematics Services.

OP

6

4

........................................................ .

30

Systems and Subsystems.

OP

6

4

OP

OP

OP

6

4

Radiodetermination Systems.

OP

6

4

TOTAL.............................................. .

24

Engineering.

OP

9

3

TOTAL................................................. .

9

Equipment Verification and Testing.

6

4

4

TOTAL........................................... .... .

6

Projects and Regulations.

OB

6

4

TOTAL.............................................. .

6

Optives.

6

4

Advanced Mathematics for Telecommunication.

OP

6

4

Information Systems.

OP

6

4

Devices on Industrial Networks.

OP

6

4

Acoustic Engineering.

OP

6

4

External Practices.

OP

6

4

Technology Cooperation for Development.

OP

6

4

Technology Base Companies.

OP

6

4

Engineering.

OP

6

and Written Expression Techniques in English.

OP

6

4

TOTAL........................................... .. .

60

End Job.

Work End of Grade.

TFG

12

4

12

Temporality of subjects

Assigns

Course

6

6

6

6

6

Second Course

6

Second Course

colspan="4">

First Semester

6

Optical Communications.

Mobile Communications.

of Power Electronic Systems.

ECTS

Assigns

Semester

Second

6

Statistics.

6

6

6

colspan="3">

Calculation.

6

Waves and Electromagnetism.

6

.

6

Calculation Extension.

6

Fundamentals Computing.

6

Circuit Theory.

6

6

6

Second Semester

Signs and Systems.

6

Electronics Digital.

6

Numeric Methods.

6

6

6

6

6

6

Communication Theory.

Programming and Radiation.

9

Programming.

6

Third Course

First Semester

Second Semester

Services Basics.

6

Multimedia and Interactive Services.

6

Digital Communications.

6

Network Engineering.

6

Systems.

6

Itinerary options.

18

Microprocessors and Microcontrollers.

6

Power Conversion.

6

Fourth Course

Semester

Second Semester

Itinerary options.

24

Itinerary options.

6

I.

6

Projects and Telecommunication Regulations.

6

Degree End Job.

12

Optional II.

6

The student must choose one of the following technology itineraries specifies

Systems.

Third Course

First Semester

6

6

Terrestrial and Satellite Path Radio

6

Components on Guided Systems

6

Fourth Course

Semester

Second Semester

Radio Frequency and Microwaves Technology.

6

Radiodetermination Systems

6

6

6

Television and Broadcasting.

6

Third Course

First Half

Second

Systems Design Analog Electronics.

9

Engineering.

9

Fourth Course

First Semester

Second Semester

Essay and Verification of Electronic Equipment.

6

Programmable Electronic Devices.

6

Digital Electronic Systems Design.

6

Communications Electronics.

6

Telematics.

Third Course

First Semester

Second Semester

Security on Networks and Services.

6

Network Management.

6

.

6

Fourth Course

Semester

Second

Design and Planning for Computer Networks.

6

Telematics Applications.

6

Mobile Networks and Services.

6

6

Telematics Services Management.

6

6

The student will choose over the course of the course, a subject for each semester

Optives

Semester

6

6

6

6

6

6

6

Devices on Industrial Networks.

6

Mathematics for Telecommunication.

6

Practices External.

6

6

Technology Base Companies.

6

6

Engineering.

6

Techniques Oral and Written in English.

6

Alternatively, a student who cursa a certain itinerary can select the following subjects from the other itineraries as optional subjects:

Assignations to pupils who have not made the itinerary for

Telecommunication Systems.

First Semester

Second

Radio Frequency and Microwave Technologies.

Electronics.

Communications Electronics.

Programmable Electronic Devices.

Telematics.

Networks and Mobile Services.

Security in Networks and Services.

The temporality of the subjects may, due to exceptional circumstances, undergo modifications, provided that it is authorized by the Vicerrectorate with competencies in Academic Management and before the beginning of the course academic.

The University will establish appropriate mechanisms to guarantee students the academic recognition of a maximum of 6 elective ECTS for participation in cultural, sports, and cultural activities. student representation, solidarity and cooperation, as provided for in Royal Decree 1393/2007 in Article 12.8.