Student profile
Type of Degree
Students should ideally have a solid grounding in mathematics and a good understanding of subjects related to science and technology. A good level of English is also recommended. Future students should possess an aptitude for understanding abstract ideas and be attentive, perceptive, organised and methodical as well as showing a capacity for reasoning, analysis and synthesis. They should be enquiring, imaginative, innovative and practical.
This is an officially recognised University Degree, valid throughout the European Higher Education Area.
WORLD HERITAGE
This Degree complies with European Higher Education Area requirements
Career opportunities The Degree in Telecommunication Technologies Engineering is aimed at producing professionals capable of applying their scientific knowledge and practical techniques and skills in various areas of telecommunications engineering, to the exploitation of current and future state-of-the-art possibilities in the different disciplines, or to research and development activities in telecommunications engineering. Their qualifications will equip graduates for professional practice in the following fields: Telecommunications services and applications w Computer applications and software w Telematics systems w Transmission systems w Computer hardware and architecture w Other electronic systems w Other basic technologies
Course contents The course is aimed at providing direct entry onto the University Master’s Degree in Telecommunications Engineering: w
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Conception and design of the specialised electronic circuits, transmission and routing devices and radiofrequency terminals or components used in telecommunications systems. Analysis, encoding, processing and transmission of multimedia information using analogue and digital signal processing techniques. Acquisition of the techniques necessary to develop communication networks architectures in fixed and mobile environments, whether personal, local or long-distance, at various bandwidths. Conception, modelling, scaling and development of telematics services and applications using various software engineering methods and programming languages, maintaining the required quality and security standards. Capacity to design systems, components or processes in the field of Information and Communications Technology, which comply with the required specifications. An understanding of ethical and professional responsibility. Providing the broad education necessary to understand the impact of telecommunications engineering solutions in a social and global context. Capacity for mathematical modelling, calculus and simulation, especially in terms of research, development and innovation in all areas related to Telecommunications Engineering.
POLYTECHNIC UNIVERSITY SCHOOL Edificio Politécnico
CAMPUS UNIVERSITARIO Ctra. Madrid-Barcelona, km 33,600 28871 Alcalá de Henares (Madrid) www.uah.es/politecnica
INFORMATION CENTRE www.uah.es ciu@uah.es
Bachelor’s Degree in:
Telecommunication Technologies Engineering
Overall distribution of Credits SUBJECT TYPE
ECTS
Basic Training (B)
66
Obligatory (Ob)
126
Optional (Opt)
36
Bachelor’s Degree Final Project (Ob)
12
TOTAL CREDITS
240