Machine Translation of "Resolution Of July 20, 2011, At The University Of Seville, That Publishes Curriculum Of Graduate In Engineering Of The T..." (Spain)

Resolution Of July 20, 2011, At The University Of Seville, That Publishes Curriculum Of Graduate In Engineering Of The Telecommunication Technologies.

Original Language Title: Resolución de 20 de julio de 2011, de la Universidad de Sevilla, por la que se publica el plan de estudios de Graduado en Ingeniería de las Tecnologías de Telecomunicación.

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TEXT

Obtained the positive verification of the curriculum by the Council of Universities, prior to the favorable report of the National Agency for the Evaluation of Quality and Accreditation, and once established the official character of the Title by Agreement of the Council of Ministers of 1 October 2010 (BOE of 11 November 2010),

This Rectorate, in accordance with the provisions of Article 35.4 of the Organic Law 6/2001, of 21 December, of Universities, in the wording given by the Organic Law 4/2007, of 12 April, has resolved to order the publication of the (a) a study plan leading to the obtaining of the degree of Graduate or Graduate in Engineering of Telecommunication Technologies by the University of Seville, which will be structured according to the following annexes.

Sevilla, July 20, 2011. -Rector, Joaquin Luque Rodríguez.

ANNEX

Graduate Studies Plan in Engineering of Telecommunication Technologies by the University of Seville

Knowledge Branch: Engineering and Architecture.

Impartition Center: Engineering Higher Technical School.

Distribution of the curriculum in ECTS credits by type of subject:

Type of matter

Credits
F	Basic Training	60
O	Required	102
P
Job End Job
	Total	240

Structure of teachings by modules:

Structure and Network Protocols Public.

Communications Via Satellite Communications

Noise and Legislation Measures.


Module	Allocate	Subject Type	Credits
Basic Training.	Basic Electronics.	F	6
	.	F	6
	.	F
	F	6
	Mathematics I.	F
	II.	F	6
			6

	Signs and Systems	F	F	6
	F

Circuits.	F	6
Extension.		O	O	6
	Communications.	O	6
	Automatic Control.	O	6
	Engineering Organization.	O	6

	Mathematics III.	O	6
	Mathematical Methods.	O
Multiservice Networks.	O	6
Common to Telecommunication Branch.	Power Electronics.	O


	O	6
	and Telematics Services Foundations.	O	6
	OR	6	Or
	Foundations.	O	6


	6	O	6	O	.	O	6
	Infrastructure Systems.	6


6
Communication.	O	6
Common Optives.		P
	Bioengineering.	P

	Electronics.	P
	Installations Low-voltage Power.	P

	to Matlab.	P
	Engineering History and Methodology.	P
	Optics Applied.	P

P	P	4.50
Security in Telematic Networks and Services.	P
		P	P
Systems Optives.	Mobile Communications.	P

	P
	Domotica.	4.50
		P
Telecontrol Systems.	P	4.50
Electronic Systems Optives.

	P

	Robotics.		P
Systems Embedded.	P
Frequency Technologies.	4.50
and Image Optives.	Design Interactive Applications.	P

	Holography and Display 3d.	P

	, Video, and Television Instrumentation.	P
	P	P	P
P		P	4.50
Telematics Optives.	Telematics Systems Administration.	P
	Design Mobile Applications.	P
	Sensors and Autonomous Systems Networks.	P
	Networks.	P
	Systems and Web Services.	P
Technology-Systems Telecommunication.	High Frequency Circuits.	P
	Advanced Digital Communications.	P

	Optic Communications Foundations.	P	4.50
	P	P	6
			P	P

	P		4.50
	Radiocommunication Systems.	P	6
	P	P	P	P	P	P
P	P

Technology-Telecommunication Systems.	Digital Signals Treatment in Communications.	P
			P	P	P	P	P	P	P	P	P
		6
		Electronics.	P
	Teams for Multimedia Information Systems.	P


	Electronic Instrumentation.	P
	Systems Projects.	P	4.50
	Electronic Communications Systems.	P
	Electronic Systems for Signal Processing	P
Technology.	P
Specific Technology-Sound and Image.	Audio, Video, and Television Equipment and Systems.	P

	Processing Foundations.	P
	P		6

	P


	P Sound Projects and Image.	P
	Systems.	P
		6
P	P
Artificial Vision.	P
		6	P	P	P
	Design of Databases.	P
	Telecommunication Network Management.	P
	Engineering.	P	6
	Planning and Networking Simulation.	P
	Projects Telematics.	P

	.	P
	P

Operating Systems.	P	4.50
Teletraffic.	P
End of Grade.	Work End Work.	T	12

Temporary Organization of Study Plan Subjects:

Course

Duration	Allocate	Type	Credits
	First.	C1
		F

		C1	Programming Foundations I.	F	6
		C1	Mathematics I.	F	6
		C1	Mathematics II.	F	6

			Computers Foundations.


Statistics.	F
C2	Device and Component Technology	F	6
C2	Circuit Theory.	F	6
C2	Programming Foundations II.	O	6
C2	Mathematics III.	O	6
Second.	C1	Basic Electronics.	F	6
	C1	Organization of Companies.	F	6
	C1	Signs and Systems.	F	C1
	C1	C1			6
		C1		6
		C2			O	O	C2
		OR	O	6
	C2	Applications and Telematics Services Foundations.	6


6	C2	Wave Propagation	O	6
C2	Communication Theory.	O	6
Third.	C1
	OR		C1	C1
		C1		C1	C1			O	O
		C1
		O	O

	C1	O	O	O		C1
	C1	C1
		C2

	Digital Electronic Systems.	4,50

C2	Optives.	P	19.50
Fourth.	C1	Organization Engineering.	O	C1
		Optives.	P	P		24

	C2	Job End Job	T
			18

Optional subject relationship:

4.50

Consumption.

Microsystems.

Electronic Systems Projects.

Telecontrol.

Television.

Digital Signals Digital Treatment.

Assigning

Credits

Administration Telematics.

Analysis and Prevention of Labor Risks.

Advanced Network Architecture.

Automation and Industrial Communications.

Bioengineering.

Frequency Circuits.

4.50

Communications.

4.50

Communications Via Satellite.

Design Interactive Applications.

Design of Data Bases.

Integrated Electronics.

Teams for Multimedia Information Systems.

, Video, and Television Teams and Systems.

Foundations Optics.

Processing Foundations.

Fundamentals of Radiocommunication.

Network Management.

Holography and Display 3d.

Acoustics Engineering.

Engineering Control.

Engineering.

, Video, and Television Instrumentation.

Instrumentation.

Introduction to Matlab.

Measures Noise and Legislation.

Methodology and History of Engineering.

Optics Applied.

Planning and Simulation Networks.

Audiovisual Production.

and Image Projects.

Telematic Projects.

Radiodetermination and Radionavigation.

Sensors and Autonomous Systems Networks.

Industrial Networks.

4.50

Network and Telematic Services Security.

Advanced Telematics Services.

Systems.

Systems Distributed and Web Services.

Electronic Communications Systems.

4.50

Electronic Systems for Signal Processing.

Systems.

Systems Communications Emerging.

Systems.

3d Animation Techniques.

Technology.

High Frequency Technologies.

Digital Treatment of Medical Images.

Digital Signals Digital Treatment

Artificial Vision.

Practices in Companies.

A: Annual; C1: 1.er fourquarter; C2: 2. 4th quarter.

Specific Technology Itineraries:

Telecommunication Systems.

Electronic Systems.

Sound and Image.

Telematics.

Note: According to the title verification memory, the student must, before the completion of his studies, accredit a level of language skills in a foreign language equivalent to at least the B1 level of the The European Common Framework of Reference for Languages.

Resolution Of July 20, 2011, At The University Of Seville, That Publishes Curriculum Of Graduate In Engineering Of The Telecommunication Technologies.

Original Language Title: Resolución de 20 de julio de 2011, de la Universidad de Sevilla, por la que se publica el plan de estudios de Graduado en Ingeniería de las Tecnologías de Telecomunicación.

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