Type A
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Code |
Competences Specific |
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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 of application in 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 |
Master the basic concepts of linear systems and their related functions and transforms, the theory of electrical circuits and electronic circuits, the physical principle of semiconductors, logic families, electronic and photonic devices, and materials technology, and apply these concepts to solve problems 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 |
Have the ability to autonomously learn new techniques and to acquire suitable knowledge for conceiving, developing and exploiting telecommunication systems and services.
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RT2 |
Have the ability to use communications and computing applications (office automation, databases, advanced calculus, project management and visualisation, etc.) in order to support the development and exploitation of telecommunication and electronic networks, services and applications.
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RT3 |
Have the ability to use electronic tools to mine bibliographic or information resources in the field of telecommunications and electronics. |
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RT4 |
Have the ability to analyse and specify the fundamental parameters of a communications system.
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RT5 |
Have the ability to assess the advantages and disadvantages of different technological alternatives for the deployment or implementation of communications systems from the perspective of signal space, perturbations, noise and analogue and digital modulation systems.
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RT6 |
Have the ability to conceive, deploy, organize and manage telecommunications networks, systems, services and infrastructures in residential (home, urban and digital communities), business and institutional contexts, accept responsibility for setting up and continuously improving them, and understanding their economic and social impact.
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RT7 |
Understand and use the basic principles of programming for telecommunication networks, systems and services.
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RT8 |
Have the ability to understand the mechanisms of propagation and transmission of electromagnetic and acoustic waves, and their corresponding transmitting and receiving devices.
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RT9 |
Have the ability to analyse and design synchronous and asynchronous combinational and sequential circuits and to use microprocessors and integrated circuits. |
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RT10 |
Understand and apply the fundamentals of description languages for hardware devices.
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RT11 |
Have the ability to use different sources of energy, especially solar photovoltaic and thermal energy, and the fundamentals of electrotechnics and power electronics.
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RT12 |
Understand and use the concepts of network architecture, protocols and communications interfaces.
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RT13 |
Have the ability to differentiate the concepts of access and transport networks, circuit and packet switching networks, fixed and mobile networks, as well as distributed network systems and applications, and voice, data, audio, video, interactive and multimedia services.
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RT14 |
Understand the methods for interconnecting networks and routing and the fundamentals of the planning and dimensioning of networks in accordance with traffic parameters |
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RT15 |
Know the rules and regulations governing telecommunications in Spain, Europe and the rest of the world.
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RT16 |
Capacitat per redactar, desenvolupar i signar projectes en l’àmbit de l’enginyeria de telecomunicació que tinguin per objecte, d'acord amb els coneixements adquirits segons el que estableix l'apartat 5 de l'ordre CIN, la concepció i el desenvolupament o l’explotació de xarxes, serveis i aplicacions de telecomunicació i electrònica.
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RT17 |
Understand the procedures used for measurements, calculations, evaluations, surveys, studies and reports in the field of telecommunications. |
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RT18 |
Foster innovation and added value in technological processes and products in the field of information technologies and telecommunications. |
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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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ST1 |
Ability to understand, construct, exploit and manage telecommunications networks, services, processes and applications as transmission systems for capturing, transporting, representing, processing, storing, managing and presenting multimedia information.
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ST2 |
Ability to apply the techniques used in the transmission systems of telecommunications networks, services and applications, including telephony, broadcasting, television and data, and in fixed, mobile, personal, local or distant environments with different bandwidths.
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ST3 |
Ability to analyse components and their specifications for guided and non-guided communication systems.
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ST4 |
Ability to select circuits, systems and subsystems for microwaves, broadcasting, radio links, radio determination and radiofrequency.
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ST5 |
Ability to select transmission antennas, equipment and systems, to propagate guided and non-guided waves by electromagnetic, radiofrequency or optical means, and to manage the assignation of frequencies.
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ST6 |
Ability to analyse, codify, process and transmit multimedia information using analogical and digital signal processing techniques.
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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 programme telematics services and applications, in networks and distributed.
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TEL7 |
Be able to program services and telematic applications, in networks and distributed
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Type B
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Code |
Competences Transversal |
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CT1 |
Use information in a foreign language effectively
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CT2 |
Manage information and knowledge by making efficient use of IT.
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CT3 |
Solve problems critically, creatively and innovatively in their academic field.
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CT4 |
Work autonomously and as part of a team with responsibility and initiative.
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CT5 |
Communicate information clearly and precisely to a variety of audiences.
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CT6 |
Identify the learning process and their academic and professional careers.
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CT7 |
Apply ethical principles and social responsibility as a citizen and a professional. |
Type C
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Code |
Competences Nuclear |
Clarifications about competencies model |
The competences model of
the URV has been updated. The new model consists of the specific competences
inherent to each degree, and the transversal competences, common to all degrees
of the URV (which substitute the previous transversal and nuclear competences). The current specific and
transversal competences of this degree can be seen on this page. Even though
the nuclear competences are also listed, these no longer apply, as they are
integrated within the transversal competences. |