This title has primarily a vocational guidance, and its design takes into account the guidelines of the Ministerial Order CIN / 355/2009 (BOE of 29/02/2009) and therefore graduates are authorized to exercise the profession Telecommunications Engineer regulated.
Top Masters Degrees in Granada in Spain. This title has primarily a vocational guidance, and its design takes into account the guidelines of the Ministerial Order CIN / 355/2009 (BOE of 29/02/2009) and therefore graduates are authorized to exercise the profession Telecommunications Engineer regulated.
Additionally graduates (according to Royal Decrees 1393/2007 and 681/2010) will start their research training in doctoral programs, especially those in the field of Information Technology and Communications (ICT).
This title responds to the demand for professionals with a broad and solid advanced training in Telecommunications Engineering by the companies in the field of ICT.
Objectives and competencies
The curriculum of the Master in Telecommunications Engineering from the University of Granada constitute an offer of training needed to enter the profession regulated in Telecommunications Engineering, providing the student, at least, of the following skills:
Knowledge and understanding that provide a basis or opportunity for originality in developing and / or applying ideas, often in a research context
That the students can apply the broader (or multidisciplinary) acquired knowledge and ability to solve problems in new or unfamiliar environments within contexts related to their field of study
Students are able to integrate knowledge and handle complexity, and formulate judgments based on information that was incomplete or limited, include reflecting on social and ethical responsibilities linked to the application of their knowledge and judgments
Students can communicate their conclusions and the knowledge and rationale underpinning to specialists and non-specialists in a clear and unambiguous
Students must possess the learning skills that enable them to continue studying in a way that will be largely self-directed or autonomous.
Ability to design, calculate and design products, processes and facilities in all areas of telecommunications engineering.
Capacity for management of works and installations of telecommunication systems, complying with current legislation, ensuring the quality of service.
Ability to lead, plan and monitor multidisciplinary teams.
Capacity for mathematical modeling, calculation and simulation technology and engineering company, particularly in research, development and innovation in all areas related to telecommunications engineering centers.
Capacity for the development, strategic planning, direction, coordination and technical and financial management of projects in all areas of telecommunications engineering following quality and environmental criteria.
Capacity for general direction, technical direction and project management research, development and innovation in companies and technology centers.
Capacity for implementation, and management of manufacturing processes of electronic and telecommunications equipment, with guaranteed security for people and goods, the final quality of the products and their approval.
Ability to understand the ethical responsibility and professional ethics of the activity of the profession of Telecommunications Engineer.
Ability to apply principles of economics and management of human resources and projects, as well as legislation, regulation and standardization of telecommunications.
Knowledge, understanding and ability to apply the necessary legislation in the exercise of the profession of Telecommunications Engineer.
Ability to apply the acquired knowledge and solve problems in new or unfamiliar environments within broader and multidisciplinary contexts, being able to integrate knowledge.
Ability to communicate (oral and written) conclusions and the knowledge and rationale underpinning to specialists and non-specialists in a clear and unambiguous manner.
Possess skills for continued learning, self-directed and autonomous.
Ability to develop radio systems: antenna design, equipment and subsystems, channel modeling, calculation and planning links.
Ability to implement systems cable line, satellite environments fixed and mobile communications.
Ability to apply methods of information theory, adaptive modulation and channel coding and advanced techniques of digital signal processing systems and audiovisual communications.
Ability to design and dimensioning transport networks, broadcasting and distribution of multimedia signals.
Ability to design systems of navigation and positioning and radar systems.
Ability to model, design, implement, manage, operate, manage and maintain networks, services and content.
Capacity for planning, decision making and packaging of networks, services and applications considering the quality of service, direct costs and operating plan implementation, monitoring, safety procedures, scaling and maintenance, as well as manage and ensure quality in the development process.
Ability to understand and know how to apply the operation and organization of Internet technologies and protocols of next generation Internet, the component models, middleware and services.
Ability to solve the convergence, interoperability and design of heterogeneous networks with local networks, access and trunk, as well as the integration of telephony, data, television and interactive.
Ability to design and manufacture integrated circuits.
Knowledge of hardware description languages for circuits of high complexity.
Ability to use programmable logic devices, and to design advanced electronic systems, both analog and digital. Ability to design communications components such as routers, switches, hubs, transmitters and receivers in different bands.
Ability to apply advanced knowledge of photonics and optoelectronics, and high-frequency electronics.
Ability to develop electronic instrumentation and transducers, actuators and sensors.
Ability to integrate technologies and systems of Telecommunication Engineering, with general character, and in broader and multidisciplinary contexts such as bioengineering, photovoltaic conversion, nanotechnology, telemedicine.
, Presentation and defense, now that all the credits of the curriculum, from an original exercise performed individually before a university tribunal, consisting of a comprehensive project of Telecommunications Engineering of a professional nature which synthesize the skills acquired in teachings.
Capacity for the development, direction, coordination, and technical and financial management of projects: systems, networks, infrastructure and telecommunications services, including supervision and coordination of the subprojects of the attached work; common telecommunications infrastructures in buildings or residential areas, including projects on digital home; telecommunications infrastructure in transport and environment; with corresponding power supply facilities and evaluation of electromagnetic emissions and electromagnetic compatibility.
Technology Project Management