Capacity for solving the mathematical problems that can arise in engineering. Ability to apply knowledge on linear algebra, geometry, differential geometry, integral and differential calculus, differential equations and partial differential equations, numerical methods, numerical algorithms, statistics and optimisation.
Basic knowledge on computer use and programming, operating systems, data bases and computer programs applied in engineering.
Understanding and command of the basic concepts concerning the general laws of mechanics, thermodynamics, fields and waves and electromagnetism, and their application in solving engineering problems.
Understanding and command of the basic concepts of linear systems and related functions and transforms, electric circuit theory, electronic circuits, physical principles of semiconductors and logic families, electronic and photonic devices, materials technology, and their application in solving engineering problems.
Appropriate knowledge of the concept of business, the institutional and legal framework of business. Business organisation and management.
Capacity for autonomous learning of new knowledge and techniques appropriate for the conception, development or exploitation of telecommunications systems and services.
Capacity to use information and communications applications (office suites, data bases, advanced calculus, project management, visualisation, etc.) to support the development and exploitation of networks, services and applications of telecommunications and electronics.
Capacity to use computer search tools for bibliographic resources or information related to telecommunications and electronics.
Capacity to analyse and specify the fundamental parameters of a communications system.
Capacity to assess the advantages and disadvantages of different technological alternatives for the development or implementation of communications systems from the viewpoint of signal space, perturbations and noise, and analogue and digital modulation systems.
Capacity to conceive, develop, organise and manage telecommunications networks, services and infrastructures in residential (digital home, city and community), business or institutional settings, assuming responsibility for their implementation and continuous improvement, and for awareness of their economic and social impact.
Knowledge and use of the fundamentals of programming in telecommunications networks, systems and services.
Capacity for understanding the mechanism of propagation and transmission of electromagnetic and sound waves, and their corresponding transmission and reception devices.
Capacity for analysis and design of combinational and sequential circuits, synchronous and asynchronous circuits, circuits used in microprocessors, and integrated circuits.
Knowledge and application of the fundamentals of hardware description languages.
Capacity to use different energy sources and especially thermal and photovoltaic solar energy, and the fundamentals of electrotechnics and power electronics
Knowledge and use of the concepts of network architecture, protocols and communication interfaces
Capacity to differentiate the concepts of access and transport networks, circuit commutation and package networks, fixed and mobile networks, and distribute network systems and applications, services for voice, data, audio, video and interactive and multimedia services.
Knowledge of the methods for network interconnection and routing, and the fundamentals of planning and dimensioning of networks in terms of traffic parameters.
Knowledge of the norms and regulations of telecommunications at national, European and international levels.
Capacity to construct, exploit and manage telecommunications networks, services, processes and applications, understood as systems for capture, transport, representation, processing, storage, management and presentation of multimedia information from the viewpoint of transmission systems.
Capacity to apply the techniques underlying telecommunications networks, services and applications, in fixed, mobile, personal, local and remote environments, with different band widths, including telephony, radio diffusion, television and data, from the viewpoint of transmission systems.
Capacity for analysis of components and their specifications for guided and non-guided communication systems.
Capacity for the selection of circuits, subsystems and systems for radio frequency, microwaves, radio diffusion, radio links and radio determination.
Capacity for the selection of antennas, equipment, and systems for transmission, guided and non-guided wave propagation, by electromagnetic, radio frequency or optical means, and the corresponding management of the radioelectric space and assignment of frequencies.
Capacity to analyse, encode, process and transmit multimedia information using analogue and digital signal processing techniques.
Capacity to construct, exploit and manage telecommunications networks, services, processes and applications, understood as systems for capture, transport, representation, processing, storage, management and presentation of multimedia information from the viewpoint of telematic services.
Capacity to apply the techniques underlying telematic networks, services and applications, such as management systems, signalling and commutation, routing, safety (cryptographic protocols, tunnelling, firescreens, mechanisms for payment, authentication and protection of contents), traffic engineering (graph theory, teletraffic and queueing theory), tariffs and reliability and quality of service, in fixed, mobile, personal, local and remote environments, with different band widths, including telephony and data.
Capacity to construct, exploit and manage telematic services using analytical tools for planning, dimensioning and analysis.
Capacity to describe, program, validate and optimise protocols and communication interfaces in the different levels of a network architecture.
Capacity to follow the technological progress of transmission, commutation and processing to improve telematic networks and services.
Capacity to design network architectures and telematic services.
Capacity for programming telematic, network and distributed services and applications.
Capacity to construct, exploit and manage systems for capture, transport, representation, processing, storage, management and presentation of multimedia information from the viewpoint of electronic systems.
Capacity to select specialised electronic circuits and devices for transmission, routing and terminals both in fixed and mobile environments.
Capacity to perform the specification, implementation, documentation and fine tuning of electronic, instrumentation and process control equipment and systems, taking into account both the technical aspects and the corresponding regulatory norms.
Capacity to apply electronics as a support technology in other fields and activities, and not only in the area of Information and Communications Technologies.
Capacity to design analogue and digital electronic circuits, analogue-digital and digital-analogue conversion circuits, radiofrequency circuits and electric energy feeding and conversion circuits for computation applications.
Capacity to understand and use feedback theory and electronic control systems.
Capacity to design interface devices, data capture and storage devices, and terminals for telecommunications services and systems.
Capacity to specify and use electronic instrumentation and measurement systems.
Capacity to analyse and solve the problems of electromagnetic interference and compatibility.