Educational guide 2025_26 Escola de Enxeñaría de Telecomunicación

Máster Universitario en Enxeñaría de Telecomunicación

Training and Learning Results

Choose A

Code

Training and Learning Results

Choose B	Code	Knowledge
	B1	Understand the mechanisms for launching, directing, and managing electronic and telecommunications equipment manufacturing processes, ensuring the safety of people and property, ensuring the final quality of the products, and ensuring their approval.
	B2	Understand the ethical responsibility and professional ethics of the Telecommunications Engineering profession.
	B3	Know, understand, and apply the legislation required to practice as a Telecommunications Engineer.
	B4	Conceiving Engineering within a framework of sustainable development.
	B5	Acquire advanced knowledge and demonstrate, in a highly specialized or scientific and technological research context, a detailed and well-founded understanding of the theoretical and practical aspects and working methodology in one or more fields of study.
	B6	Possess and understand knowledge that provides a basis or opportunity for originality in the development and/or application of ideas, often in a research context.
	B7	Know the procedures to innovate and manage ideas and creativity
	B8	Understand the limitations, risks, and implications of using Generative AI.
	B9	Understand and apply the functioning and organization of the Internet, next-generation Internet technologies and protocols, component models, middleware, and services.
	B10	Know the hardware description languages for highly complex circuits.
	B11	Understand and know how to exploit the processes of information formation and dissemination on social networks, applying them to improving the Internet. Sugeren
	B12	Know the main standards in the field of audio and video coding.
	B13	Understand the main problems that arise in the transmission of multimedia content
	B14	Know the transport and signaling protocols used by multimedia applications.
	B15	Learn the main techniques for the efficient distribution of multimedia content.
	B16	Know the main network technologies for multimedia distribution in access networks.
	B17	Explain what basic generic strategies consist of, identify their sources, and describe how value is generated from their execution.

Choose C	Code	Skill
	C1	Manage the tools necessary to manage telecommunication system construction and installations, complying with current regulations and ensuring service quality.
	C2	Manage the tools necessary to direct, plan and supervise multidisciplinary teams
	C3	Perform mathematical modeling, calculations, and simulations in technology and engineering centers, particularly in research, development, and innovation tasks in all areas related to Telecommunications Engineering and related multidisciplinary fields.
	C4	Apply methodologies for the development, strategic planning, direction, coordination, and technical and economic management of projects in all areas of telecommunications engineering, following quality and environmental criteria.
	C5	Use tools specific to general management, technical management, and research, development, and innovation project management in companies and technology centers.
	C6	Apply acquired knowledge and solve problems in new or unfamiliar environments within broader, multidisciplinary contexts, being able to integrate knowledge.
	C7	Apply the principles of economics and human resources and project management, as well as telecommunications legislation, regulation, and standardization.
	C8	Communicate (orally and in writing) the conclusions - and the knowledge and ultimate reasons that support them - to specialized and non-specialized audiences in a clear and unambiguous manner.
	C9	Learn continuously, self-directedly, and autonomously.
	C10	Predict and control the evolution of complex situations by developing new and innovative work methodologies adapted to the specific scientific/research, technological, or professional field, generally multidisciplinary, in which they operate.
	C11	Become aware of the need for continuous quality training and improvement, developing values inherent to the dynamics of scientific thought, 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.
	C12	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.
	C13	Be able to use Generative AI in an ethical, critical and responsible manner
	C14	Apply methods from information theory, adaptive modulation and channel coding, as well as advanced digital signal processing techniques to communications and audiovisual systems.
	C15	Develop radiocommunication systems: antenna, equipment and subsystem design, channel modeling, link calculation and planning
	C16	Implement cable, landline, and satellite systems in fixed and mobile communications environments.
	C17	Carry out planning, decision-making and packaging of networks, services and applications considering the quality of service, direct and operating costs, the implementation plan, supervision, security procedures, scaling and maintenance, as well as managing and ensuring quality in the development process
	C18	Solve the convergence, interoperability and design of heterogeneous networks with local, access and backbone networks, as well as the integration of telephone, data, television and interactive services.
	C19	Use programmable logic devices and design advanced electronic systems, both analog and digital. Design communications components such as routers, switches, hubs, transmitters, and receivers in different bands.
	C20	Apply advanced knowledge of photonics and optoelectronics, as well as high-frequency electronics.
	C21	Develop electronic instrumentation, as well as transducers, actuators and sensors
	C22	Integrate technologies and systems specific to Telecommunications Engineering, both in a generalist capacity and in broader, multidisciplinary contexts such as bioengineering, photovoltaic conversion, nanotechnology, and telemedicine.
	C23	Apply methodologies for the development, direction, coordination, and technical and financial management of projects on: telecommunications systems, networks, infrastructures, and services, including the supervision and coordination of partial projects for related work; common telecommunications infrastructures in buildings or residential areas, including digital home projects; telecommunications infrastructures in transportation and the environment; with their corresponding energy supply installations and assessment of electromagnetic emissions and electromagnetic compatibility.
	C24	Develop, strategically plan, direct, coordinate, and technically and economically manage space projects in the terrestrial and deep space environments, applying Space Systems Engineering standards, with knowledge of satellite operating processes.
	C25	Apply statistical signal processing methods to communications and audiovisual systems.
	C26	Manage the acquisition, structuring, analysis, and visualization of data, extracting the underlying information and knowledge, critically assessing the results, and applying them to innovation and strategic decision-making in various fields.
	C27	Integrate photovoltaic conversion technologies to power telecommunications engineering systems
	C28	Build a measurement system for a physical variable from the transducer to the user interface, including knowledge of metrology, basic signal conditioning topologies, and instrumentation software.
	C29	Apply different numerical methods, their programming and/or use to obtain approximate solutions to mathematical models of real-life problems.
	C30	Apply numerical optimization algorithms to problems related to the telecommunications industry.
	C31	Model, operate, manage, and address the complete lifecycle and packaging of networks, services, and applications, considering quality of service, direct and operational costs, the implementation plan, monitoring, security, scaling, and maintenance, managing and ensuring quality throughout the development process.
	C32	Understand, design, configure, manage, maintain, diagnose, troubleshoot, and implement security policies on a corporate network (equipment, protocols, and services).
	C33	Configure and deploy streaming and VoIP services.
	C34	Efficiently search and filter resources on the Web, use various collaborative work tools, and produce content on the Social Web to communicate with others to create shared knowledge and create a personal learning network appropriate to their profile.
	C35	Identify the concept of competitive advantage and appropriately understand some indicators that approximate value creation in the company, as well as the role that strategy plays in this process. Specifically, identify the different levels within the company's strategy and the most relevant decisions at each level.
	C36	Assess the profit potential offered by a particular industrial sector by analyzing a series of basic dimensions.
	C37	Conduct a diagnosis of the company's internal reality, detect both its weaknesses and strengths, and identify those resources and capabilities that could be a source of sustainable competitive advantage.

Choose D	Code	Competences
	D1	Project, calculate, and design products, processes, and facilities in all areas of telecommunications engineering
	D2	Develop sufficient autonomy to participate in research projects and scientific or technological collaborations within their thematic scope, in interdisciplinary contexts and, where appropriate, with a high level of knowledge transfer.
	D3	Integrate knowledge and face the complexity of formulating judgments based on information that, although incomplete or limited, includes reflections on the social and ethical responsibilities linked to the application of knowledge and judgments
	D4	Design and dimension transport, broadcast and distribution networks for multimedia signals
	D5	Design radio navigation and positioning systems, as well as radar systems.
	D6	Model, design, implement, manage, operate, administer, and maintain networks, services, and content.
	D7	Design and manufacture integrated circuits.
	D8	Once all the credits in the curriculum have been obtained, complete, present, and defend an original exercise carried out individually before a university panel, consisting of a comprehensive professional Telecommunications Engineering project that summarizes the skills acquired in the courses.
	D9	Design and manage distributed systems based on learning and incentives.