This subject, with examples of telecommunications system technologies, develops the following skills:



.- Ability to autonomously learn new knowledge and techniques suitable for the conception, development or exploitation of telecommunications systems and services.

.- Ability to use computer tools to search for bibliographic resources or information related to telecommunications.

.- Ability to analyze and specify the fundamental parameters of a communications system.

.- Ability to conceive, deploy, organize and manage telecommunications networks, systems, services and infrastructures in residential (home, city and digital communities), business or institutional contexts, taking responsibility for their implementation and continuous improvement, as well as knowing their impact economic and social.

.- Knowledge of telecommunications regulations and standards at national, European and international levels.

.- Ability to analyze components and their specifications for guided and unguided communications systems.

.- Ability to write, develop and sign projects in the field of telecommunications engineering, whose purpose is the development or exploitation of telecommunications networks, services and applications.

.- Knowledge, understanding and ability to apply the necessary legislation during the development of the profession of Telecommunications Technical Engineer and ease of handling mandatory specifications, regulations and standards.

.- Knowledge of basic subjects and technologies, which enables you to learn new methods and technologies, as well as giving you great versatility to adapt to new situations.

.- Ability to solve problems with initiative, decision-making, creativity, and to communicate and transmit knowledge, skills and abilities, understanding the ethical and professional responsibility of the activity of the Telecommunications Technical Engineer.

.- Ease of managing mandatory specifications, regulations and standards.

.- Content 1: Analysis of the technological development process, from the idea of ​​the product/service through specifications and design. Practical cases.

.- Content 2: Telecommunications Product/Service. Market vision: ICT as a sectoral market, ICT as horizontal technologies in vertical markets, definition of the value chain, competition, market and profitability analysis. Practical cases.

.- Content 3: Technological exploration and protection of knowledge (Patents). Practical cases.

.- Content 4: Common Telecommunications Infrastructure.

.- Content 5: Radio and Television Stations.

.- Content 6: Smart Electrical Grids.

.- Content 7: Certification of telecommunications components and systems: base stations and electromagnetic compatibility.

.- Content 8: Visits to the Technology Center and Telecommunications Companies.

The teaching methodology aimed at promoting student learning consists of:

.- Master classes on each of the contents.

.- Seminar classes, in which the theoretical concepts of the master classes alternate with short exercises to strengthen the concepts.

.- Laboratory practices in which students face simulations of real work in a company: patent, state-of-the-art analysis, specification and design, technical-economic feasibility study of a telecommunications product or service.

.- Presentation of projects and infrastructures by professionals in the sector.

.- Individual presentation of project ideas by students.

.- Group presentation by students of ICT projects in their different phases.

.- Written exam on the knowledge acquired in the subject.

.- Notes provided by teachers.
.- Transparencies and photographs of facilities provided by teachers.

Basic bibliography

.- Real Decreto 346/2011, de 11 de marzo, por el que se aprueba el Reglamento regulador de las infraestructuras comunes de telecomunicaciones para el acceso a los servicios de telecomunicación en el interior de las edificaciones.

.- Alberto Sendín, “Estrategias de despliegue de redes PLC PRIME para la gestión inteligente de

contadores de medida eléctrica”, tesis doctoral 2013.

.- "Smart Grid Reference Architecture", CEN-CENELEC ETSI Smart Grid Coordination Group November, 2012 ETSI Smart Grid Coordination Group.

.-"PRIME v1.4 White Paper", PRIME Alliance, prepared by teh PRIME Alliance Technical Working Group.

.- Directiva 2004/108/EC de Compatibilidad Electromagnética y normas AENOR relacionadas.

.- Real Decreto 1066/2001, de 28 de septiembre, por el que se aprueba el Reglamento que establece condiciones de protección del dominio público radioeléctrico, restricciones a las emisiones radioeléctricas y medidas de protección sanitaria frente a emisiones radioeléctricas.

.- Orden CTE/23/2002, de 11 de enero, por la que se establecen condiciones para la presentación de determinados estudios y certificaciones por operadores de servicios de radiocomunicaciones.

.- Orden ITC/749/2010, de 17 de marzo, por la que se modifica la Orden CTE/23/2002, de 11 de enero, por la que se establecen condiciones para la presentación de determinados estudios y certificaciones por operadores de servicios de radiocomunicaciones.

.- Presentación "Exposición al espectro radioeléctrico”, J.Emilio Rodríguez, Eugenio Perea, LABEIN Centro Tecnológico.

Journals

.- https://ieeexplore.ieee.org/Xplore/home.jsp