Choose A
|
Code |
Training and Learning Results |
|
A1 |
CB1 Knowledge and understanding needed to provide a basis or opportunity for being original in developing and/or applying ideas, often within a research context. |
|
A2 |
CB2 Students must apply their knowledge and ability to solve problems in new or unfamiliar environments within broader (or multidisciplinary) contexts related to their field of study. |
|
A3 |
CB3 Students must integrate knowledge and handle complexity of formulating judgments based on information that was incomplete or limited, including reflections on social and ethical responsibilities linked to the application of their knowledge and judgments. |
|
A4 |
CB4 Students must communicate their conclusions, and the knowledge and reasons stating them-, to specialists and non-specialists in a clear and unambiguous way. |
|
A5 |
CB5 Students must have learning skills to allow themselves to continue studying in largely self-directed or autonomous way |
Choose B
|
Code |
Knowledge |
|
B1 |
CG1 Ability to project, calculate and design products, processes and facilities in telecommunication engineering areas. |
|
B2 |
CG2 Capacity for managing projects and telecommunication systems facilities, complying with current legislation, ensuring the quality of service. |
|
B3 |
CG3 Ability to lead, plan and monitor multidisciplinary teams. |
|
B4 |
CG4 Capacity for mathematical modeling, calculation and simulation in technological centers and engineering companies, particularly in research, development and innovation tasks in all areas related to Telecommunication Engineering and associated multidisciplinary fields. |
|
B5 |
CG5 Capacity for development, strategic planning, direction, coordination and technical and financial management of projects in all fields of Telecommunication Engineering following quality and environmental criteria. |
|
B6 |
CG6 Capacity for general direction, technical direction and management of research, development and innovation projects in companies and technological centers. |
|
B7 |
CG7 Capacity for implementation and management of manufacturing processes of electronic and telecommunications equipment; guaranteeing safety for persons and property, the final quality of the products, and their homologation. |
|
B8 |
CG8 Ability to apply acquired knowledge and to solve problems in new or unfamiliar environments within broader and multidiscipline contexts, being able to integrate knowledge. |
|
B9 |
CG9 Ability to understand the responsibility and professional ethics in the activity of the profession of Telecommunications Engineering. |
|
B10 |
CG10 Ability to apply principles of economics and human resources and projects management, as well as legislation, regulation and standardization of telecommunications. |
|
B11 |
CG11 Ability to communicate (oral and written) conclusions, and the knowledge and reasons supporting them, to specialists and non-specialists in a clear and unambiguous way. |
|
B12 |
CG12 Skills for lifelong, self-directed and autonomous learning. |
|
B13 |
CG13 Knowledge, understanding and ability to implement the necessary legislation in the exercise of the profession of Telecommunication Engineering. |
Choose C
|
Code |
Skill |
|
C1 |
CE1 Ability to apply methods of information theory, adaptive modulation and channel coding, as well as advanced techniques of digital signal processing systems and audiovisual communications. |
|
C2 |
CE2 Ability to develop radio communication systems: antenna, equipment and subsystems design; channel modeling; link budgeting; and planning. |
|
C3 |
CE3 Ability to implement systems by cable, line, satellite, in fixed and mobile communication environments. |
|
C4 |
CE4 Ability to design and plan networks for transporting, broadcasting and distribution of multimedia signals. |
|
C5 |
CE5 Ability to design systems of radio navigation and positioning, as well as radar systems. |
|
C6 |
CE6 Ability to model, design, implement, manage, operate, and maintain networks, services and contents. |
|
C7 |
CE7 Capacity for planning, decision making and packaging of networks, services and applications, taking into account the quality of service, direct and operating costs, plan implementation, monitoring, safety procedures, scaling and maintenance, as well as managing and ensuring quality in the development process. |
|
C8 |
CE8 Ability to understand and know how to apply the operation and organization of the Internet, new generation Internet technologies and protocols, component models, middleware and services. |
|
C9 |
CE9 Ability to solve convergence, interoperability and design of heterogeneous networks with local, access and trunk networks; as well as the integration of telephonic, data, television and interactive services. |
|
C10 |
CE10 Ability to design and manufacture integrated circuits. |
|
C11 |
CE11 Knowledge of hardware description languages for high complexity circuits. |
|
C12 |
CE12 Ability to use programmable logic devices, as well as to design advanced electronic systems, both analog and digital. The ability to design communications components such as routers, switches, hubs, transmitters and receivers in different bands. |
|
C13 |
CE13 Ability to apply advanced knowledge of photonics, optoelectronics and high-frequency electronics. |
|
C14 |
CE14 Ability to develop electronic instrumentation, as well as transducers, actuators and sensors. |
|
C15 |
CE15/GT1 Ability to integrate technologies and systems of Telecommunication Engineering, with general character, and at broader and multidisciplinary contexts such as bioengineering, photovoltaic conversion, nanotechnology, telemedicine. |
|
C16 |
CE16/GT2 Capacity for the development, direction, coordination, and technical and financial management of projects on telecommunications systems, networks, infrastructure and services, including supervision and coordination of the accompanying work subprojects; common telecommunications infrastructures in buildings or residential areas, including projects on digital home; telecommunications infrastructure in transport, and environment; with the corresponding energy supply facilities, and evaluation of electromagnetic emissions and electromagnetic compatibility. |
|
C17 |
CE17/TFM Embodiment, presentation and defense, once all credits of the curriculum are passed, of an original exercise performed individually in front of a university jury, consisting of a comprehensive project of Telecommunication Engineering with professional nature, in which skills acquired in the teachings are synthesized. |
|
C18 |
CE18/RAD1 Capacity of elaborating, strategic planning, direction, coordination and technical and economic management of spatial projects applying spatial systems engineering standards, with knowledge of the processes a satellite operation. |
|
C19 |
CE19/RAD2 Ability to perform theoretical design, experimental band systems measurement and practical implementation broadband for current applications |
|
C20 |
CE20/RAD3 Ability to analyse and specify the basic parameters of a mobile or wireless radio network, as well as of quality of service. |
|
C21 |
CE21/PS1 Manage implementation of signal processing systems options to accelerate computationally complex algorithms. |
|
C22 |
CE22/PS2 Ability to understand the impact of the requirements of the telecommunications systems design services, with special emphasis in the lower layers, while maintaining a global vision of the solutions employed in modern commercial systems of communications. |
|
C23 |
CE23/PS3 Ability to apply methods of statistical processing of signal communications systems and audiovisual. |
|
C24 |
CE24/TE1 Ability to understand the fundamentals of distributed systems and distributed computing paradigms, and its application in the design, development and management in grid, ubiquitous computing scenarios and cloud systems. |
|
C25 |
CE25/TE2 Ability to manage the acquisition, structuring, analysis and visualization of data, extracting information and underlying knowledge, critically assessing the results, and applying it to strategic decision-making and innovation in different areas. |
|
C26 |
CE26/TE3 Ability to understand and know to exploit the processes of training and dissemination of information in social networks, applying them to the improvement of Internet |
|
C27 |
CE27/TE4 Ability to design and manage distributed systems based on learning and incentive |
|
C28 |
CE28/SE1 Capacity of technology integration of photovoltaic conversion for power systems of Telecommunication Engineering. |
|
C29 |
CE29/SE2 Ability to build a system of a physical variable measured from the transducer to the user interface, including knowledge of methodology, basic topologies of conditioning signal and instrumentation software |
|
C30 |
CE30/SE3 Capacity planning, evaluation and decision-making in new environments relating to the packaging of networks, services and applications in the electromagnetic field, with knowledge of reliability and life cycle costing |
|
C31 |
CE37/OP7 Ability to model, operate, manage, and deal with the full cycle and bagging of networks, services and applications considering the quality of service, direct and costs of operation, the plan of implementation, monitoring, security, scaling and maintenance, managing and ensuring the quality of the development process |
|
C32 |
CE38/OP8 Ability to design, manufacture (in hybrid technology) and characterize the analog components of transceivers of communications in microwave and millimeter-wave bands |
|
C33 |
CE46/OP16 Ability to understand the current development of mobile and ubiquitous services and market developments . |
|
C34 |
CE47/OP17 Ability to design, create, integrate sources of context, and working group on the development of a mobile application |
|
C35 |
CE50/OP20 Ability to deploy and manage server software application logic of a web service managers, to design and manage non-relational data bases , and understand the functional division of an existing Web application between the client and the server itself |
|
C36 |
CE43/OP13 Ability to characterize intelligent sensors and their specific characteristics in networks |
Choose D
|
Code |
Competences |
|
D1 |
CT1 Being able to predict and control the evolution of complex situations by developing new and innovative working methodologies matched to the specific scientific / research, technological or professional fields, generally multidisciplinary, in which their activities are conducted. |
|
D2 |
CT2 Developing enough autonomy to participate in research projects and scientific and technological collaborations within its scope, in interdisciplinary contexts and, in case, with a high component of knowledge transfer. |
|
D3 |
CT3 Understanding Engineering in a framework for sustainable development. |
|
D4 |
CT4 Awareness of the need for training and continuous quality improvement, developing values of the dynamics of scientific thought, showing a flexible, open and ethical attitude in front of different opinions or situations, particularly on non-discrimination based on sex, race or religion, respect for fundamental rights, accessibility, etc. |
|
D5 |
CT5 Encourage cooperative work, communication skills, management, planning and acceptance of responsibilities in an environment of multilingual and multidisciplinary work, which promotes education for equality, peace and respect for fundamental rights. |
|
D6 |
CT6 Acquire advanced knowledge and demonstrate detailed and informed understanding of the theoretical and practical aspects of the methodology and work in one or more fields of study, in the context of scientific and technological highly specialized research. |
Universidade de Vigo
|
Reitoría |
Campus Universitario |
C.P. 36.310 Vigo (Pontevedra) |
Spain |
Tlf: +34 986 812 000
|
|