Type A
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Code |
Competences Specific |
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A1 |
Be able to write, carry out and sign projects within the field of telecommunications engineering with the purpose of the conception, development or use of networks, services and applications of telecommunications and electronics. |
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A2 |
Have knowledge of taking measurements, calculations, evaluations, valuations, surveys, studies, reports, work plans and other similar studies in the specific field of telecommunications. |
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A3 |
Have knowledge of, understand and be able to apply the legislation necessary while exercising the profession of Technical Telecommunications Engineer and be able to handle the compulsory specifications, regulations and standards. |
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A4 |
Be able to analyse, use and develop technology within the field of telecommunications. |
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A5 |
Be able to use the instrumentation necessary for telecommunications systems. |
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FB1 |
Be able to solve mathematical problems that may arise in engineering. Have the ability to apply knowledge on: linear algebra, differential and integral calculation, numerical methods, numerical algorithmics, statistics and optimisation.
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FB2 |
Have basic knowledge on the use and programming of computers, operating systems, databases and IT programmes applicable to engineering.
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FB3 |
Understand and have good command of the basic concepts of the general laws of mechanics, thermodynamics, fields and waves and electromagnetism and their application to solve problems inherent in engineering. |
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FB4 |
Understand and master the basic concepts of linear systems and their functions and related transformations, theory of electric circuits, electronic circuits, the physical principles of semiconductors and logic families, electronic and photonic devices, materials technology and their application in solving problems inherent in engineering.
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FB5 |
Have appropriate knowledge of the concept of companies, and the institutional and legal framework of companies. Business management.
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RT1 |
Be able to independently learn new techniques and suitable knowledge to conceive, develop or use telecommunications systems and services. |
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RT2 |
Be able to use communications and IT applications (office automation, databases, advanced calculation, project management, visualisation, etc.) to provide support to the development and use of networks, services and applications in telecommunications and electronics.
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RT3 |
Be able to use IT tools to search for bibliographic resources or information related to telecommunications and electronics.
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RT4 |
Be able to analyse and specify the fundamental parameters of a communications system. |
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RT5 |
Be able to evaluate the advantages and disadvantages of different technological alternatives for the implementation of communications systems, from the point of view of signal space, disturbances, noise and analogue and digital modulation systems.
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RT6 |
Be able to conceive, implement, organise and manage telecommunications networks, systems, services and infrastructures in residential (home, city and digital communities), business or institutional contexts, taking responsibility for the start-up and continuous improvement, and being aware of its economic and social impact.
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RT7 |
Have knowledge of and use the fundamentals of programming in telecommunications networks, systems and services. |
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RT8 |
Be able to understand the mechanisms of propagation and transmission of electromagnetic and acoustic waves, and the corresponding emission and reception devices. |
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RT9 |
Be able to analysis and design synchronous and asynchronous combinational and sequential circuits, and use microprocessors and integrated circuits. |
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RT10 |
Have knowledge of and apply the fundamentals of description languages of machinery devices. |
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RT11 |
Be able to use different energy sources, in particular solar photovoltaic and thermal, and the fundamentals of electrical engineering and power electronics. |
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RT12 |
Have knowledge of and use the concepts of network architecture, protocols and communications interfaces. |
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RT13 |
Be able to differentiate the concepts of access and transport networks, switching networks and packet circuits, fixed and mobile networks, and the systems and applications of distributed networks, voice, data, audio and video services and interactive and multimedia services.
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RT14 |
Have knowledge of the interconnection methods of networks and routing, and the basics of network planning and dimensioning according to the transit parameters. |
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RT15 |
Have knowledge of the regulations regarding telecommunications on a national, European and international level. |
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TEL1 |
Be able to construct, use and manage telecommunications networks, services, processes and applications, understood to be systems of capture, transport, representation, processing, storage, management and presentation multimedia information from the point of view of the telematics services.
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TEL2 |
Be able to apply the techniques on which telematics networks, services and applications are based, such as management systems, signalling and switching, routing and security (cryptographic protocols, tunnels, firewalls, mechanisms for payment, authentication and content protection), traffic engineering (graph theory, queue theory and teletraffic), pricing, reliability and service quality, in fixed, mobile, personal, local or long-distance environments, with different bandwidths, including telephony and data. |
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TEL3 |
Be able to construct, use and manage telematics services using tool analytical tools for planning, dimensioning and analysis. |
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TEL4 |
Be able to describe, programme, validate and optimise communications protocols and interfaces in the different levels of a network architecture.
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TEL5 |
Be able to follow the technological progress of transmission, switching and process to improve telematics networks and services. |
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TEL6 |
Be able to design architectures of telematics networks and services. |
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TEL7 |
Be able to programme telematics services and applications, in networks and distributed. |
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TFG1 |
An original exercise that must be completed individually, presented and defended before a university panel. It consists of a project in the field of technology specific to telecommunications engineering of a professional nature in which the skills acquired during the teaching are synthesised and integrated.
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Type B
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Code |
Competences Transversal |
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B1 |
Be able to manage the activities related to projects linked to the profession of Technical Telecommunications Engineer. |
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B2 |
Have knowledge in basic and technological subjects, which gives them the ability to learn new methods and theories, and the versatility to adapt to new situations. |
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B3 |
Be able to solve problems with initiative, decisiveness, creativity, and to communicate and transmit knowledge, abilities and skills, understanding the ethical and professional responsibility of the activity of the Technical Telecommunications Engineer. |
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B4 |
FacilitaBe able to handle specifications, regulations and standards that must be fulfilled. |
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B5 |
Be able to analyse and evaluate the social and environmental impact of technical solutions. |
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B6 |
Be able to apply the principles and methods of quality. |
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B7 |
Know and apply the basic elements of economy and management of humans resources, project organisation and planning, and of legislation, regulation and standardisation in telecommunications. |
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B8 |
Be able to work in a multidisciplinary group and in a multilingual environment and communicate, in writing and orally, knowledge, procedures, results and ideas related to telecommunications and electronics. |
Type C
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Code |
Competences Nuclear |
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C1 |
Have an intermediate mastery of a foreign language, preferably English |
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C2 |
Be advanced users of the information and communication technologies |
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C3 |
Be able to manage information and knowledge |
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C4 |
Be able to express themselves correctly both orally and in writing in one of the two official languages of the URV |
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C5 |
Be committed to ethics and social responsibility as citizens and professionals |
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C6 |
Be able to define and develop their academic and professional project |