Educational guide
IDENTIFYING DATA 2023_24
Subject TELECOMMUNICATIONS IN INDUSTRY Code 00707041
Study programme
0707 - G.INGENIERÍA ELECT. INDUSTRIAL Y AUTOMÁTICA
Descriptors Credit. Type Year Period
6 Optional Fourth Second
Language
Castellano
Prerequisites
Department ING.ELECTR.DE SIST. Y AUTOMATI
Coordinador
FOCES MORÁN , JOSE MARÍA
E-mail jmfocm@unileon.es
vgonc@unileon.es
Lecturers
FOCES MORÁN , JOSE MARÍA
GONZÁLEZ CASTRO , VICTOR
Web http://paloalto.unileon.es/it
General description Introduction to the application of TICs to Industrial and Home Automation.
Tribunales de Revisión
Tribunal titular
Cargo Departamento Profesor
Presidente ING.ELECTR.DE SIST. Y AUTOMATI DOMINGUEZ GONZALEZ , MANUEL
Secretario ING.ELECTR.DE SIST. Y AUTOMATI ALAIZ RODRIGUEZ , ROCIO
Vocal ING.ELECTR.DE SIST. Y AUTOMATI DIEZ DIEZ , ANGELA
Tribunal suplente
Cargo Departamento Profesor
Presidente ING.ELECTR.DE SIST. Y AUTOMATI FERRERO FERNANDEZ , MIGUEL
Secretario ING.ELECTR.DE SIST. Y AUTOMATI FUERTES MARTINEZ , JUAN JOSE
Vocal ING.ELECTR.DE SIST. Y AUTOMATI MARCOS MARTINEZ , DAVID

Competencias
Code  
A18686
B5656
B5666
B5668
B5673
C1 CMECES1 That students have demonstrated possession and understanding of knowledge in an area of study that is based on general secondary education, and is usually found at a level that, although supported by advanced textbooks, also includes some aspects that involve knowledge from the cutting edge of their field of study
C2 CMECES2 That students know how to apply their knowledge to their work or vocation in a professional manner and possess the skills that are usually demonstrated through the development and defense of arguments and the resolution of problems within their area of study.
C3 CMECES3 That students have the ability to gather and interpret relevant data (normally within their area of study) to make judgments that include reflection on relevant issues of a social, scientific or ethical nature.
C4 CMECES4 That students can transmit information, ideas, problems and solutions to both a specialised and non-specialised audience
C5 CMECES5 That students have developed those learning skills necessary to undertake further studies with a high degree of autonomy

Learning aims
Competences
Students know how to specify and plan solutions for the telecomunication needs of industrial environments C1
Students know the physical transmission media, basic digital modulation techniques and use hierarchies common in telecommunications A18686
 C1
Students know how to make decisions, analyze and solve problems with initiative, creativity and critical thinking B5656
 C2
C3
Students know how to handle technical specifications, regulations and standards and how to do mesurements and calculations B5673
 C2
Students must know how to communicate technical knowledge, reasoning processes and the description of technical habilities in written and oral form B5666
 C2
C4
Hability to learn independently C5
Hability for quality teamwork B5668
 C3
C4

Contents
Topic Sub-topic
Block I: FUNDAMENTALS Chapter 1: INTRODUCTION TO INDUSTRIAL NETWORKS
Network types and architectures
Block II: TRANSMISION Chapter 2: SIGNALS AND SYSTEMS.
Analog and digital transmission. Sampling theorem. Communication and Information Theories
Block III: SWITCHED LANS CHAPTER 3: DATALINK.
Datalink protocols, Ethernet, Switched Ethernet, Industrial Ethernet, Switches and Hubs, Spanning Tree Protocol and VLANs
Block IV: INTERNETWORKING AND APPLICATIONS Chapter 4: PROTOCOLS AND APPLICATIONS
Sockets Service Interfaces TCP/IP.

Planning
Methodologies  ::  Tests
  Class hours Hours outside the classroom Total hours
Problem solving, classroom exercises 8 0 8
 
Presentations / expositions 4 0 4
Practicals using information and communication technologies (ICTs) in computer rooms 38 24 62
Tutorship of group 6 0 6
 
Lecture 22 22 44
 
Mixed tests 2 12 14
Extended-answer tests 0 8 8
Practical tests 4 0 4
 
(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students.

Methodologies
Methodologies   ::  
  Description
Problem solving, classroom exercises Resolution of problems and exercises on the white board
Presentations / expositions Presentation of the summary of some relevant article form the field of industrial communications
Practicals using information and communication technologies (ICTs) in computer rooms Making experimental and programming practices in a technology-specific lab and regular documentation in a Lab Journal Book
Tutorship of group Group tutorial session are scheduled in the offical course calendar
Lecture Presentation of the core concepts and relevant scenarios about Computer Networks

Personalized attention
 
Practicals using information and communication technologies (ICTs) in computer rooms
Tutorship of group
Description
Tutorial session are announced in the officlal course calendar

Assessment
  Description Qualification
Problem solving, classroom exercises Submission of homework comprised of exercises and problems 15
Presentations / expositions Presentations made by students about current trends in industrial networking 5
Practicals using information and communication technologies (ICTs) in computer rooms Regular attendance and completion of lab practices and their documentation in a Lab Journal Book are mandatory for obtaining the pass grade in this course 10
Mixed tests Two term exams which passing is a necessary condition for receiving the pass mark on the course 70
 
Other comments and second call

The second call is for retakes of Term 1 and Term 2 exams. No practice, Lab Book or other homework will be accepted on the secodn call to exam (Typicalle held in July). Students are expected to behave in accordance with basic social and academic principles; behaving otherwise will compromise the pass grade altogether.

Sources of information
Access to Recommended Bibliography in the Catalog ULE

Basic Larry Peterson, Bruce davie, Computer Networks, Morgan-Kaufmann, 2013
José M. Foces Morán, J.M. Foces Vivancos, Conceptual Computer Networks, paloalto.unileon.es/cn, 2015-2022
Sierra Pérez, M., Galocha Iragüen, B., Fernández Jambrina, J. L., Sierra Castañer, M., Electrónica de Comunicaciones, Pearson Prentice Hall, 2003
Spurgeon, C. E., Ethernet: the definitive guide, O'Reilly, 2000
ITU-T, Manual sobre redes basadas en el protocolo Internet (IP) y asuntos conexos, Unión Internacional de Telecomunicaciones, 2005
ITU-T, Optical fibres, cables and systems, Unión Internacional de Telecomunicaciones, 2009
José María Barceló Ordinas Jordi Íñigo Griera Software libre Redes Ramón Martí Escalé Enric Peig Oli, Redes de Computadores, UOC, 2010
Figueiras Vidal, A., Artés Rodríguez, A, Una panorámica de las telecomunicaciones, Prentice Hall, 2001

Complementary ITU-R, Reglamento de Radiocomunicaciones, Unión Internacional de Telecomunicaciones, 2008
ITU-T, Applications of ITU-T G.9960, ITU-T G.9961 transceivers for Smart Grid applications: Advanced metering infrastructure, energy management in the home and electric vehicles, U, 2010
ITU-T, Informe esencial sobre telefonía por el protocolo Internet (IP), Unión Internacional de Telecomunicaciones, 2004
ITU-T, Wireline broadband access networks and home networking , Unión Internacional de Telecomunicaciones, 2011


Recommendations


Subjects that it is recommended to have taken before
Physical fundamentals / 00707003
Informatics / 00707010
CONTROL ENGINEERING I / 00707025
Digital electronics / 00707027