Educational guide 2025_26 Escola de Enxeñaría de Telecomunicación

Grao en Enxeñaría de Tecnoloxías de Telecomunicación

Training and Learning Results

Choose A

Code

Training and Learning Results

Choose B	Code	Knowledge
	B1	Understand and master the basic concepts of linear systems and related functions and transforms, electrical circuit theory, electronic circuits, physical principle of semiconductors and logic families, electronic and photonic devices, materials technology and its application to solve engineering problems.
	B2	Adequate knowledge of the concept of the company, institutional and legal framework of the company. Business organization and management.
	B3	To understand the mechanisms of propagation and transmission of electromagnetic and acoustic waves, and to know their corresponding emitting and receiving devices.
	B4	Know and differentiate the concepts of access and transport networks, circuit-switched and packet-switched networks, fixed and mobile networks, as well as distributed network systems and applications, voice, data, audio, video, interactive and multimedia services.
	B5	To know the methods of network interconnection and routing, as well as the basics of network planning and sizing based on traffic parameters.
	B6	To know the rules and regulations of telecommunications at national, European and international levels.
	B7	To know the appropriate techniques for the development and operation of signal processing subsystems.
	B8	To know the limitations, risks and implications of the use of Generative AI.
	B9	Know elements and techniques in biomedical engineering and their application in solving problems associated with diagnosis, monitoring and therapy
	B10	Understand the specific demands of embedded systems with strong real-time constraints.
	B11	Understand the current development of mobile and ubiquitous services and applications, as well as market evolution.
	B12	To learn basic subjects and technologies that enable students to learn new methods and technologies, giving them great versatility to adapt to new situations.
	B13	Know the methods necessary for carrying out measurements, calculations, evaluations, appraisals, expert reports, studies, reports, task planning, and other similar work in your specific field of telecommunications.

Choose C	Code	Skill
	C1	Solve mathematical problems that may arise in engineering. Apply knowledge of: linear algebra; geometry; differential geometry; differential and integral calculus; differential equations and partial derivatives; numerical methods; numerical algorithms; statistics and optimization.
	C2	Program computers and manage operating systems, databases and computer programs with engineering applications.
	C3	Understand and master the basic concepts of the general laws of mechanics, thermodynamics, fields and waves and electromagnetism and their application to solve engineering problems.
	C4	Use communication and computer applications (office automation, databases, advanced calculation, project management, visualization, etc.) and support the development and operation of telecommunication and electronic networks, services and applications.
	C5	Use computer tools to search for bibliographic resources or information related to telecommunications and electronics.
	C6	Analyze and specify the fundamental parameters of a communications system.
	C7	Know and make use of the fundamentals of programming in networks, systems and telecommunication services.
	C8	Analyze and design combinational and sequential, synchronous and asynchronous circuits, and use microprocessors and integrated circuits.
	C9	Know and apply the fundamentals of hardware device description languages.
	C10	Work with different energy sources, especially solar photovoltaic and thermal, and apply the fundamentals of electrical engineering and power electronics.
	C11	Know and use the concepts of network architecture, protocols and communication interfaces.
	C12	To build, operate and manage telecommunications networks, services, processes and applications, understood as systems for the capture, transport, representation, processing, storage, management and presentation of multimedia information, from the point of view of transmission systems.
	C13	Apply the techniques underlying telecommunication networks, services and applications in both fixed and mobile, personal, local or long-distance environments, with different bandwidths, including telephony, broadcasting, television and data, from the point of view of transmission systems.
	C14	Analyze components and their specifications for guided and unguided communications systems.
	C15	Analyze, encode, process and transmit multimedia information using analog and digital signal processing techniques.
	C16	To build, operate and manage telecommunications networks, services, processes and applications, understood as systems for capturing, transporting, representing, processing, storing, managing and presenting multimedia information, from the point of view of telematic services.
	C17	Apply the techniques on which telematic networks, services and applications are based, such as management systems, signaling and switching, routing, security (cryptographic protocols, tunneling, firewalls, charging, authentication and content protection mechanisms), 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, including telephony and data.
	C18	Build, operate and manage telematic services using analytical tools for planning, sizing and analysis.
	C19	Describe, program, validate and optimize communication protocols and interfaces at the different levels of a network architecture.
	C20	Monitor transmission, switching and processing technology developments to improve telematics networks and services.
	C21	Programming telematic, networked and distributed services and applications.
	C22	To build, operate and manage telecommunications services and applications, understood as systems for capturing, analog and digital processing, encoding, transport, representation, processing, storage, reproduction, management and presentation of audiovisual services and multimedia information.
	C23	To design premises and facilities for the production and recording of audio and video signals.
	C24	To carry out acoustic engineering projects on: insulation and acoustic conditioning of premises; public address systems; specification, analysis and selection of electroacoustic transducers; noise and vibration measurement, analysis and control systems; environmental acoustics; underwater acoustics systems.
	C25	To build, operate and manage systems for the capture, transport, representation, processing, storage, management and presentation of multimedia information, from the point of view of electronic systems.
	C26	Perform the specification, implementation, documentation and commissioning of electronic, instrumentation and control equipment and systems, considering both the technical aspects and the corresponding regulatory standards.
	C27	To apply electronics as a support technology in other fields and activities, and not only in the field of Information and Communication Technologies.
	C28	Understand and use feedback theory and electronic control systems.
	C29	Specify and use electronic instrumentation and measurement systems.
	C30	Analyze and solve interference and electromagnetic compatibility problems.
	C31	Analyze digital signal processing schemes.
	C32	Develop, interpret and debug programs using the basic concepts of Object Oriented Programming (OOP): classes and objects, encapsulation, relationships between classes and objects, and inheritance.
	C33	Address the basic application of program analysis, design, implementation and debugging phases in the OOP.
	C34	Handle CASE tools (editors, debuggers).
	C35	Develop programs according to the basic principles of software engineering quality, taking into account the main existing sources of norms, standards and specifications.
	C36	Be able to use Generative AI in an ethical, critical and responsible way.
	C37	Prepare technical and monitoring reports of a telecommunication project.
	C38	Be able to use microcontroller simulation software tools.
	C39	Acquire, condition and process the information obtained from optoelectronic sensors.
	C40	Apply the conceptual, theoretical and practical tools of telecommunications in the development and application of radar and remote sensing systems.
	C41	Apply the conceptual, theoretical, and practical tools of telecommunications in the development and applications of satellite navigation and communications systems.
	C42	Implement digital signal processing schemes in programmable devices.
	C43	Interact with radio signals digitally.
	C44	Apply numerical methods to the resolution of acoustic problems.
	C45	Identify industrial noise problems and design customized control solutions.
	C46	Develop the architecture necessary to ensure the interoperability of IoT devices.
	C47	Build networks and define protocols that enable communication between IoT devices.
	C48	Be able to communicate orally and in writing in Galician.
	C49	Manage mandatory specifications, regulations and standards.
	C50	Know and apply basic elements of economics and human resources management, project organization and planning, as well as legislation, regulation and standardization in telecommunications
	C51	Manage software tools that support problem solving in engineering.
	C52	Manage software tools that support problem solving in engineering.

Choose D	Code	Competences
	D1	Demonstrate autonomy to learn new knowledge and techniques appropriate to the design, development or operation of telecommunication systems and services.
	D2	Evaluate the advantages and disadvantages of different technological alternatives for the deployment or implementation of communications systems, from the point of view of signal space, disturbances and noise, and analog and digital modulation systems.
	D3	Design, deploy, organize and manage telecommunication networks, systems, services and infrastructures in residential (home, city and digital communities), business or institutional contexts, taking responsibility for their implementation and continuous improvement, as well as for knowing their economic and social impact.
	D4	Select circuits, subsystems and systems for radio frequency, microwave, broadcasting, radio links and radiodetermination.
	D5	To be able to select antennas, equipment and systems for transmission, propagation of guided and unguided waves, by electromagnetic, radiofrequency or optical means and to manage the radioelectric space and frequency allocation.
	D6	Design network architectures and telematic services.
	D7	Analyze, specify, implement and maintain television, audio and video systems, equipment, headends and installations, both in fixed and mobile environments.
	D8	Create, encode, manage, disseminate and distribute multimedia content, taking into account usability and accessibility criteria for audiovisual, broadcasting and interactive services.
	D9	Select specialized electronic circuits and devices for transmission, routing and terminals in both fixed and mobile environments.
	D10	Design analog and digital electronics, analog-to-digital and digital-to-analog conversion, radio frequency, power supply and power conversion circuits for telecommunication and computer applications.
	D11	Deseñar dispositivos de interface, captura de datos e almacenamento, e terminais para servizos e sistemas de telecomunicación.
	D12	Develop technical project proposals in accordance with the requirements specified in a call for proposals.
	D13	Lead the technical management of a telecommunication project.
	D14	Direct the economic and human resources management of a telecommunications project.
	D15	Design hardware and software for microcontroller-based systems.
	D16	Design circuits based on optoelectronic devices for use in telecommunication systems.
	D17	Design and synthesize complex digital systems using hardware description languages.
	D18	Select remote observation circuits, subsystems and systems.
	D19	Select satellite navigation and communications subsystems and systems.
	D20	Build, operate, and manage synthetic image and video generation systems and interactive multimedia applications.
	D21	Design IoT devices by selecting the most appropriate sensors/actuators for each application.
	D22	Design and deploy large-scale data processing systems.
	D23	Complete an original individual project in the field of specific technologies in Telecommunications Engineering of a professional nature that synthesizes and integrates the skills acquired in the coursework. Present and defend it before a university panel.
	D24	Develop sufficient autonomy to carry out work in the thematic field of Telecommunications in interdisciplinary contexts
	D25	Conceiving Engineering within a framework of sustainable development.
	D26	Become aware of the need for continuous quality training and improvement, demonstrating a flexible, open, and ethical attitude toward diverse opinions or situations, particularly regarding non-discrimination based on sex, race, or religion, respect for fundamental rights, accessibility, etc.
	D27	Promote cooperative work, communication skills, organization, planning, and acceptance of responsibilities in a multilingual and multidisciplinary work environment that fosters education for equality, peace, and respect for fundamental rights.
	D28	Be able to draft, develop and sign projects in the field of telecommunications engineering that aim to design, develop or operate telecommunications and electronic networks, services and applications.
	D29	Know, understand and be able to apply the necessary legislation during the development of the profession of Telecommunications Technical Enlightenment and show facility for the management of specifications, regulations and standards of compliance.
	D30	Solve problems with initiative, decision-making, creativity, and the ability to communicate and transmit knowledge, skills, and abilities, understanding the ethical and professional responsibility of the Telecommunications Technical Engineer's work.
	D31	Analyze and assess the social and environmental impact of technical solutions.
	D32	Work in a multidisciplinary group and in a multilingual environment and communicate, both in writing and orally, knowledge, procedures, results and ideas related to telecommunications and electronics.
	D33	Perform critical reading of scientific documents.
	D34	Knowing how to approach a new problem by first addressing the essential and then the accessory or secondary.
	D35	Have the ability to discuss technical issues.