Degree in Telematics Engineering

  • R9 - Ability to analyze and design combinational and sequential circuits, synchronous and asynchronous, and use microprocessors and integrated circuits.
  • R13 - 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, voice, data, audio, video, interactive and multimedia services.
  • R4 - Ability to analyze and specify the fundamental parameters of communication systems.
  • R5 - Ability to assess the advantages and drawbacks of different technological alternatives for the deployment and implementation of communications systems, from the point of view of signal space, perturbations and noise and analogue and digital modulation systems.
  • R7 - Understand and use the basic principles of programming for telecommunication networks, systems and services.
  • R1 - Ability for self-learning of new knowledge and techniques appropriate for the conception, development and exploitation of telecommunications systems and services.
  • G3 - Acquisition of the knowledge of the basic and technological subjects that allows students to learn new methods and theories and endows them with the versatility to adapt to new situations.
  • G4 - Ability to solve problems with initiative, decision-making and creativity, and to communicate and transmit knowledge, abilities and skills, understanding the ethical and professional responsibility of the activity of a telecommunications technical engineer.
  • B1 - Ability to solve any mathematical problems that may arise in engineering. Ability to apply knowledge of: linear algebra, geometry, differential geometry, differential and integral calculus, differential equations and partial derivatives, numerical methods, numerical algorithms, statistics and optimization.
  • B3 - Understand and master the basic concepts of the general laws of mechanics, thermodynamics, fields and waves and electromagnetism their application to solve engineering problems.
  • B4 - Understand and master the basic concepts of linear systems and the related functions and transforms, electric circuit theory, electronic circuits, physical principle of semiconductors and logic families, electronic and photonic devices, materials technology and their application to solve engineering problems.
  • B2 - Basic knowledge of the use and programming of computers, operating systems, databases and computer software with applications to computer engineering.
  • G8 - Knowledge and application of basic elements of economics and human resource management, project organization and planning, and legislation, regulations and norms in telecommunications.
  • G9 - Ability to work in a multidisciplinary environment and in a multilingual group and to communicate, in writing and orally, knowledge, procedures, results and ideas related to telecommunications and electronics.
  • B5 - Adequate knowledge of the concept of company and of the institutional and legal framework of enterprises. Organisation and management of companies.
  • G6 - Ability in the handling of specifications, regulations and norms of compulsory compliance.
  • G7 - Ability to analyze and assess the social and environmental impact of technical solutions.
  • R2 - Ability to use communication and computer applications (offimatics, databases, advanced calculation, project management, visualization, etc.) to support the development and exploitation of telecommunications and electronics networks, services and applications.
  • R3 - Ability to use computer tools to find bibliographic resources and information related to telecommunications and electronics.
  • R8 - Ability to understand the mechanisms of propagation and transmission of electromagnetic and acoustic waves, and their corresponding transmitting and receiving devices.
  • R15 - Understand the standards and regulations of telecommunications in Spain, Europe and Internationally.
  • R6 - Ability to conceive, deploy, organize and manage telecommunications networks, systems, services and infrastructures in residential (home, urban and digital communities), business and institutional contexts, as well as understanding their economic and social impact.
  • R12 - Understand and use the concepts of network architecture, protocols and communications interfaces.
  • R14 - Understand the interconnection and routing methods of network, as well as the fundamentals of planning, sizing networks according to traffic parameters.
  • G5 - Knowledge to carry out measurements, calculations, assessments, evaluations, loss adjustments, studies, reports, task planning, and other analogous work in the specific field of telecommunications.
  • R10 - Understand and apply the fundamentals of hardware description languages describing hardware devices.
  • R11 - Ability to use different sources of energy, especially solar photovoltaic and thermal, as well as the fundamentals of electrotechnics and power electronics.
  • G2 - Knowledge, understanding and ability to apply the legislation required in the development of the profession of Telecommunications Technical Engineering and ability in the handling of specifications, regulations and norms of compulsory compliance.
  • G1 - Ability to write, develop and sign projects in the field of Telecommunication Engineering aimed - according to the knowledge acquired in section 5 of CIN/352/2009 regulation - at the conception and the development or the exploitation of networks, services and applications of telecommunications and electronics.
  • E1 - Ability to construct, exploit and manage telecommunication networks, services , processes and applications, understood as systems for the acquisition, transport, representation, processing, storage, management and presentation of multimedia information, from the perspective of telematics services.
  • E2 - Ability to apply the techniques under the telematic networks, services and applications, such as management systems, signaling and switching, routing, security (cryptographic protocols, tunneling, firewall, collecting mechanisms, authenticating and protecting contents), traffic engineering (graph theory, queuing theory and teletraffic) pricing and reliability and quality of service, in fixed, mobile, personal, local or long distance environments, with different bandwidths, and including telephony and data.
  • E3 - Ability to construct, operate and manage telematic services using analytical tools for planning, dimensioning and analysis.
  • E4 - Ability to describe, program, validate and optimize communication protocols and interfaces at different levels of a network architecture.
  • E5 - Ability to follow the technological progress of transmission, commutation and proccess to improve the telemactic networks and services.
  • E6 - Ability to design networks and telematic services architectures.
  • E7 - Ability to programme networked and distributed telematic services and applications.
  • FG1 - Original exercise to carry out individually and present and defend before a university tribunal, consisting of a project in the field of specific technology in telematics of telecommunication engineering of professional nature which synthesizes and integrates the skills acquired in the education program.
  • Students must have developed the learning skills needed to undertake further study with a high degree of autonomy.
  • Students must be able to communicate information, ideas, problems and solutions to both expert and lay audiences.
  • Students must have the ability to gather and interpret relevant data (usually in their field of study) to make judgements that take relevant social, scientific or ethical issues into consideration.
  • Students must be able to apply their knowledge to their work or vocation in a professional manner and have acquired the competences required for the preparation and defence of arguments and for problem solving in their field of study.
  • Students must have acquired knowledge and understanding in a specific field of study, on the basis of general secondary education and at a level that includes mainly knowledge drawn from advanced textbooks, but also some cutting-edge knowledge in their field of study.
  • Capacidad para participar activamente en la especificación, diseño, implementación y mantenimiento de los sistemas de información y comunicación.
  • TI6 - Ability to design systems, applications and services based on network technologies, including the Internet, the web, e-commerce, multimedia, interactive services and mobile computing.
  • SI1 - Ability to integrate ICT solutions into business processes in order to meet the information needs of organisations, thus enabling them to achieve their goals effectively and efficiently and providing them with competitive advantage.
  • SI2 - Ability to determine the requirements of an organisations information and communication systems, considering safety aspects and compliance with regulations and legislation.
  • SI3 - Ability to actively participate in the specification, design, implementation and maintenance of information and communication systems.
  • SI4 - Ability to understand and apply the principles and practices of organisations, so that they can liaise between the technical and administrative staff of an organisation, and can actively participate in the training of users.
  • SI5 - Ability to understand and apply the principles of risk assessment and apply them correctly in the development and implementation of action plans.
  • SI6 - Ability to understand and apply the principles and techniques of quality management and technological innovation in organisations.
  • IC2 - Ability to analyse, evaluate and select the most appropriate hardware and software platforms to support embedded and real-time applications.
  • IC1 - Ability to develop specific processors and embedded systems, and to develop and optimise software for such systems.
  • IC3 - Ability to analyse, evaluate, select and configure hardware platforms for the development and implementation of computer applications and services.
  • C1 - Ability to know the fundamentals, paradigms and techniques in the field of intelligent systems, and to analyse, design and build computer systems, services and applications that use these techniques in any field of application.
  • C2 - Ability to acquire, obtain, formalise and represent human knowledge in a computable form for solving problems through a computer system in any field, particularly in those related to aspects of computing, perception and action in intelligent environments.
  • C3 - Ability to recognise and develop computational learning techniques and to design and implement applications and systems that use them, including those for the automatic retrieval of information and knowledge from large volumes of data.
  • Capacidad de análisis y diseño de circuitos combinacionales y secuenciales, síncronos y asíncronos, y de utilización de microprocesadores y circuitos integrados.
  • TE5 - Ability to design circuits for analog and digital electronics, analog-digital and digital-analog conversion, radio frequency, power and power conversion for telecommunications and computing applications.
  • G2 - Ability to lead project activities in the field of information technology, in accordance with both the knowledge and the specific skills acquired in the degree.
  • G11 - Ability to analyse and assess the social and environmental impact of technical solutions, and understanding of the ethical and professional responsibility of a computer engineer.
  • G12 - Knowledge and application of the basic principles of economics and human resource management, project organisation and planning, and legislation, regulation and standardisation in the field of computer projects, in accordance with both the knowledge and the specific skills acquired in the degree.
  • TI1 - Ability to understand the environment of an organisation and its needs in the field of information and communication technology.
  • TI3 - Ability to use user-centred and organisation-centred methodologies for the development, assessment and management of IT-based applications and systems, to ensure accessibility, ergonomics and usability.
  • TI5 - Ability to select, implement, integrate and manage information systems that meet the needs of the organisation taking account of cost and quality criteria.
  • G1 - Be able to relate and structure information from different sources and to integrate ideas and knowledge. (RD1393/2007)
  • G2 - Have the learning skills needed to undertake further studies or to gain further training with a certain degree of autonomy. (RD1393/2007)
  • G3 - Take into account the economic and social context in engineering solutions, be aware of diversity and multiculturalism and ensure sustainability and respect for human rights and equality between men and women.
  • G4 - Be able to integrate into working groups and collaborate in multidisciplinary environments and be able to communicate properly with professionals from all fields.
  • I10 - e able to design and evaluate human-computer interfaces that ensure accessibility and usability of computer systems, services and applications.
  • MM1 - Have knowledge and ability to understand essential facts, concepts, principles and theories related to multimedia systems including all the disciplines covered by these systems.
  • MM2 - Be able to understand and manage the different technologies involved in multimedia systems, both from the point of view of hardware and electronics and of software.
  • MM3 - Be able to implement methodologies, technologies, processes and tools for the professional development of multimedia products in a real context of use by applying the appropriate solutions for each environment.
  • MM6 - Conceive, design, and implement projects related to multimedia products by using engineering methodologies, applying the principles of human resources management and applying economic principles.
  • MM7 - Be able to apply the principles of audiovisual graphic design and communication to multimedia products.
  • MM9 - Program correctly in the different specific languages of multimedia systems taking into account time and cost restrictions.
  • MM10 - Be able to analyse and integrate software components to develop multimedia applications.
  • MM11 - Have knowledge and ability to apply the different mechanisms and elements to create both linear and non-linear audiovisual stories according to different production formats, technologies and media.
  • MM21 - Communicate effectively, both in writing and verbally, knowledge, procedures, results and ideas related to ICT and specifically to multimedia, and know their socioeconomic impact.
  • MM22 - Have knowledge and ability to understand essential facts, concepts, principles and theories related to multimedia and to the spectrum of reference disciplines.
  • MM24 - Be able to design, develop, evaluate and ensure the accessibility, ergonomics, usability and security of multimedia systems, services and applications and of the information that these manage.
  • MM28 - Be able to solve problems with initiative, decision-making and creativity and to communicate and transmit the knowledge, abilities and skills of a multimedia engineer.