Master’s degree in Telecommunications Engineering (MET)
Master's degree in Telecommunications Engineering (MET)
Barcelona School of Telecommunications Engineering (ETSETB)
The master’s degree in Telecommunications Engineering (master's degree website) is a training proposal that is adaptable to the needs of two types of students: those who wish to focus on a professional career and those who wish to pursue a doctoral degree in the area of telecommunications engineering.
This master’s degree provides graduates with a broad profile that includes skills and expertise in communications systems, networks, electronics and audiovisual systems to ensure that they have the professional competencies that they need to practise as telecommunications engineers. After the first, compulsory subject area, students can choose from a wide variety of subjects to acquire a general profile, specialise in a field, or engage in research and pursue a doctoral degree.
The aim is for the graduates to enter modern industry as benchmark professionals in the new multidisciplinary work and production scenario. To increase their employability, students can take both the master’s thesis and some of the ECTS credits for optional subjects in a company or laboratory.
MET has a strong international character. It is taught entirely in English as it is expected that a large number of students will be from other countries. There is also the possibility of obtaining a joint degree with another internationally renowned university.
- Duration and start date
- 2 academic years, 120 ECTS credits. Starting September and February
- Timetable and delivery
- Mornings and afternoons. Face-to-face
- Fees and grants
- Approximate fees for the master’s degree, excluding other costs (does not include non-teaching academic fees and issuing of the degree certificate):
€2,215 (€12,662 for non-EU residents).
Grants for the degree- Everis: 2 scholarships with a grant of €3,000 each, and carrying out practices in Everis during a semester..
- Fòrum TIC: 1 scholarship of €3,000.
- HP: 1 scholarship with a grant of €2,773.35 and an additional employment contract linked to the duration of the scholarship .
- Telecogresca: 1 scholarship for the 1st.
More information about fees and payment options
More information about grants and loans - Language of instruction
- English
Information on language use in the classroom and students’ language rights.
- Location
- Official degree
- Recorded in the Ministry of Education's degree register
- General requirements
- Academic requirements for admission to master's degrees
- Specific requirements
- Bachelor’s degree in Telecommunications Technologies and Services Engineering
- Bachelor’s degree in Telecommunications Science and Technology
- Bachelor’s degree in Audiovisual Systems Engineering
- Bachelor’s degree in Electronic Systems Engineering
- Bachelor’s degree in Telecommunications Systems Engineering
- Bachelor’s degree in Network Engineering.
- Bachelor's degree in Electrical Engineering.
- Pre-EHEA five-year degree in Telecommunications Engineering: 60 ECTS credits may be recognised if the degree is homologated in Spain.
- Pre-EHEA five-year degree in Electronic Engineering: 45 ECTS credits may be recognised if the degree is homologated in Spain.
- Pre-EHEA diploma in Telecommunications Engineering: an additional 30 ECTS credits must be passed.
- Bachelor's degree in Engineering Physics: an additional 60 ECTS credits must be passed (30 of them can be taken as optional courses on the bachelor's degree in Engineering Physics).
The exact number of additional ECTS credits depends on the degree held by the applicant and will be decided by the academic committee of the master's degree.- Admission criteria
Language requirements:
CEFR English Level B2, which you can demonstrate in one of the following ways:- Your mother tongue is English.
- You have studied in an English-speaking country (for at least one semester).
- You have taken an academic university programme taught in English (for at least one semester).
- You hold a European Higher Education Area degree that includes English Level B2.
- You hold one of the following English language certificates:
- Cambridge: FCE
- TOEFL PBT: >= 567; CBT: >= 227; IBT: >= 87
- IELTS: 5.5
- TOEIC: 750
- Escuela Oficial de Idiomas: Certificado de nivel avanzado (Level 5)- You obtain a B2 English certificate at the UPC
Knowledge of Catalan and Spanish may be helpful for daily life.
Find more information on the Language services and resources at the UPC website.
- Places
- 60 in September; 20 in February
- Pre-enrolment
- Pre-enrolment period open.
Expected deadline: 09/12/2024.
How to pre-enrol - Enrolment
- How to enrol
- Legalisation of foreign documents
- All documents issued in non-EU countries must be legalised and bear the corresponding apostille.
MET Curriculum
Master MET offers 3 types of academic paths:
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Academic path without specialization: If you want maximum flexibility in the elective subjects, choose this option. There are 45 compulsory ECTS credits, 15 ECTS credits from one intensification and you will have 30 more ECTS to choose among the different elective options. The final thesis has 30 ECTS.
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Academic path with specialization: If you want to be a specialist in one of the multiple areas of the electrical engineering, choose this option. There are 45 compulsory ECTS credits, 30 ECTS credits from the intensification that you prefer, and you will still have 15 more ECTS to choose among the different elective options. The final thesis has 30 ECTS.
The different specialisations are:
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Academic path with double-degree (limited places): If you prefer maximum internationalization and another master degree, choose this option. You will have to enrol 45 compulsory ECTS credits, 15 ECTS credits from one intensification and 60 or 90 ECTS credits (that include the 30 ECTS of the thesis) at the foreign university.
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Subjects are structured in different blocks:
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Bridge subjects: To be taken by students whose academic profile is not a general bachelor of telecommunications engineering. The Academic Commission of Masters assigns these courses to new students. These subjects do not extend the master, they use elective credits.
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Core subjects: Compulsory subjects.
- Intensification subjects (Academic path without specialization): The student must choose one intensification (Communications, Electronics, Multimedia or Networks) and take 3 subjects from a choice of 9. These subjects can be enrolled in different semesters, but the student must have passed 3 of the same intensification before finishing the master.
- Specialization subjects (Academic path with specialization): The student will take 4 specialization compulsory subjects and 2 specialization elective subjects.
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Elective credits: These credits can be divided between:
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And one of the following three options:
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IMPORTANT NOTICE: Students willing to take a double degree or a mobility stay should:
- Take the intensification path.
- Pass all core subjects + 3 intensification subjects before the mobility.
- Should you have to enroll bridge courses during the first semester, set up a meeting with Vice-Dean Head of Master Studies (sotsdirmasters@etsetb.upc.edu) to plan the enrolment for first and second semesters.
First semester (30 ECTS).
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All bridge subjects that have been assigned to you.
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Core subjects. Any of them except MTP.
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None or one elective/intensification/specialization subject. Any except IT and having into account these restrictions:
- AFOC requires to simultaneously enrol TSYS.
- AMC requires to simultaneously enrol TSYS.
- QSN requires to simultaneously enrol CN and OVNET.
- WAN requires to simultaneously enrol CN.
Second semester (30 ECTS): The rest of core subjects except MTP + intensification subjects + elective subjects. Without restrictions.
Third semester (30 ECTS): MTP + intensification subjects + elective subjects. Without restrictions.
Fourth semester (30 ECTS): Master's thesis.
In case that bridge subjects are required, these will be enrolled in first and second semesters depending on the subject availability and the academic profile of each applicant.
Students can make mobility stays of half or full year to choose among a great number of foreign universities. Usually, the period is the third semester and/or the master's thesis during the fourth semester.
In case that the student is taking a double degree or a mobility stay in the second year, MTP and the 3 intensification subjects must be passed during first and second semesters.
Internships in companies:
It is also possible to perform internships in companies. In the master's framework, these internships can be curricular equivalent to 15 elective ECTS, curricular to do the master's thesis or extracurricular (do not recognize credits).
The ETSETB has a long collaboration tradition with companies. In this link you may see the companies that have offered internships during the last years.
- Specialisation in Specialisation in Antennas, Microwaves and Photonics for Communications and Earth Observation
- Specialisation in Specialisation in Electronics
- Specialisation in Specialisation in Fiber Optic Communications
- Specialisation in Specialisation in Multimedia
- Specialisation in Specialisation in Networks and Internet Technologies
- Specialisation in Specialisation in Wireless Communications
Compulsory
- Advanced Communications for Wireless Systems 5
- Communication Networks 5
- Electronic Instrumentation and Optoelectronics 5
- Electronic System Design for Communications 5
- Innovation Based Service Management 5
- Laboratory of Antennas and Microwaves for Communication Systems 5
- Laboratory of Antennas and Microwaves for Communication Systems 5
- Management of Telecommunications Projects 5
- Microwave Photonics and Terahertz Research and Applications 5
- Microwave Photonics and Terahertz Research and Applications 5
- Overlay Networks 5
- Radar, Radionavigation and Location Systems 5
- Radar, Radionavigation and Location Systems 5
- Radar, Radionavigation and Location Systems 5
- Remote Sensing for Earth Observation 5
- Remote Sensing for Earth Observation 5
- Remote Sensing for Earth Observation 5
- Telecommunications Systems 5
- Wireless Communication Links and Antennas 5
- Advanced Analog Circuit Techniques 5
- Advanced Analog Circuit Techniques 5
- Advanced Communications for Wireless Systems 5
- Communication Networks 5
- Design of Analog Microelectronic Circuits 5
- Electronic Instrumentation and Optoelectronics 5
- Electronic System Design for Communications 5
- Electronics for Communications Systems 5
- Electronics for Communications Systems 5
- Fundamentals of Semiconductor Devices 5
- Innovation Based Service Management 5
- Introduction to Measurement Systems 5
- Introduction to Microelectronic Design 5
- Introduction to Microelectronic Technologies 5
- Introduction to Microelectronic Technologies 5
- Management of Telecommunications Projects 5
- Overlay Networks 5
- Sensors, Instruments and Measurement Systems 5
- Sensors, Instruments and Measurement Systems 5
- Telecommunications Systems 5
- Wireless Communication Links and Antennas 5
- Advanced Communications for Wireless Systems 5
- Communication Networks 5
- Electronic Instrumentation and Optoelectronics 5
- Electronic System Design for Communications 5
- Innovation Based Service Management 5
- Management of Telecommunications Projects 5
- Optical Fiber Telecommunications 5
- Optical Fiber Telecommunications 5
- Optical Fiber Telecommunications 5
- Optical Fiber Telecommunications 5
- Optical Fiber Telecommunications Lab 5
- Optical Fiber Telecommunications Lab 5
- Optical Fiber Telecommunications Lab 5
- Optical Fiber Telecommunications Lab 5
- Optical Networks 5
- Optical Networks 5
- Optical Networks 5
- Optical Networks 5
- Overlay Networks 5
- Quantum Optical Communications 5
- Telecommunications Systems 5
- Wireless Communication Links and Antennas 5
- Advanced Communications for Wireless Systems 5
- Biometrics 5
- Biometrics 5
- Communication Networks 5
- Digital Image and Video Processing 5
- Digital Image and Video Processing 5
- Digital Speech and Audio Processing 5
- Digital Speech and Audio Processing 5
- Electronic Instrumentation and Optoelectronics 5
- Electronic System Design for Communications 5
- Innovation Based Service Management 5
- Machine Learning From Data 5
- Machine Learning From Data 5
- Management of Telecommunications Projects 5
- Overlay Networks 5
- Telecommunications Systems 5
- Wireless Communication Links and Antennas 5
- Advanced Communications for Wireless Systems 5
- Communication Networks 5
- Distributed Systems, Internet and Web Technologies 5
- Electronic Instrumentation and Optoelectronics 5
- Electronic System Design for Communications 5
- Innovation Based Service Management 5
- Management of Telecommunications Projects 5
- Network Science 5
- Network Science 5
- Network Science 5
- Network Security 5
- Network Security 5
- Network Security 5
- Overlay Networks 5
- Quality of Service in Networks 5
- Quality of Service in Networks 5
- Quality of Service in Networks 5
- Telecommunications Systems 5
- Web & Mobile App Development 5
- Web & Mobile App Development 5
- Wireless Communication Links and Antennas 5
- 5G Mobile Communications Systems 5
- 5G Mobile Communications Systems 5
- Advanced Communications for Wireless Systems 5
- Advanced Mobile Communications 5
- Advanced Signal Processing: Tools and Applications 5
- Advanced Signal Processing: Tools and Applications 5
- Advanced Signal Processing: Tools and Applications 5
- Communication Networks 5
- Electronic Instrumentation and Optoelectronics 5
- Electronic System Design for Communications 5
- Innovation Based Service Management 5
- Management of Telecommunications Projects 5
- Overlay Networks 5
- Short Range Communications 5
- Short Range Communications 5
- Short Range Communications 5
- Telecommunications Systems 5
- Wireless Communication Links and Antennas 5
- Wireless Laboratory 5
- Wireless Laboratory 5
- Wireless Laboratory 5
Optional
- Advanced Mobile Communications 5
- Ai and Big Data for Earth Observation 5
- Alternative Computing Strategies with Emerging Nanoelectronic Devices 3
- Antennas and Microwaves 5
- Array Processing and Smart Antennas 5
- Artificial Intelligence and Internet of Things (Iot) 3
- Automotive Embedded Systems 5
- Basic Mathematics for Algebraic Coding Theory with Applications to Cryptography 2.5
- Beam Propagation and Fourier Optics 5
- Big Gnss Data: From Remote Sensing to Space Weather 3
- Blockchain 5
- Brief Course on The Mathematics Behind Coding Theory and Cryptography 3
- Building Your Career. From Academia to Startups & Beyond 2.5
- Coding of Audiovisual Contents 5
- Cognitive Radio and Spectrum Sharing: a Key Technology of 5G Networks 2.5
- Configurable Digital Electronics 5
- Control and Applications in Power Electronics 5
- Control Theory and Applications 5
- Critical Thinking and Creativity 5
- Cubesat-Based Mission Design and Testing 5
- Data Privacy 5
- Data Transmission Protocols 5
- Deep Learning for Computer Vision 2.5
- Deep Learning for Speech and Language 2.5
- Deep Learning for Vision 3
- Digital Communications 5
- Digital Image and Video Processing 5
- Earth and Cosmos 5
- Entrepreneurship for World Challenges 5
- Fiber Optic Infrastructure for 5G Networks 2.5
- Fibers and Telecommunications 3
- Financial Engineering: Applications to Information Technology Projects 2.5
- Future Trends in Mobile Communications: From 5G to 6g 2.5
- GPS and Galileo Data Processing: From Fundamentals to High Accuracy Navigation 5
- Graph Signal Processing 3
- Graphene and Carbon Nanotubes Introduction and Fundamentals 2.5
- Hands-On Quantum Computing and Artificial Intelligence 3
- Integrated Photonics 3
- Interdisciplinary Innovation Project 5
- Introduction to Photonics. Optics and Lasers 5
- Introduction to Research 1 5
- Introduction to Research 2 5
- Introduction to Research 3 5
- Laboratory on Ultrasonic Electronics 3
- Laser Applications in Remote Sensing: Lidar 3
- Lidar Processing and Inversion: Applications to Remote Sensing of Physical Parameters 2.5
- Lidar Remote Sensing 2.5
- Machine Learning From Data 5
- Marine Technology Instrumentation 5
- Matlab Programed Arduino for Control Applications 2.5
- Matrix Algebra, Accelerated Program 3
- Microwave Imaging for Remote Sensing 5
- Microwave Imaging for Remote Sensing 5
- Microwave Imaging for Remote Sensing 5
- Microwave Photonics 2.5
- Modern Channel Coding 3
- Natural Language Processing with Deep Learning 3
- Network Performance Analysis and Evaluation 5
- Networking and Future Internet Opportunities 5
- New Telecom Markets 3
- Numerical Methods for Electromagnetic Engineering 5
- Numerical Methods for Electromagnetic Engineering 5
- Numerical Methods for Electromagnetic Engineering 5
- Optical Fiber Telecommunications 5
- Optical Remote Sensing: Lidar (Laser Radar) 5
- Optical Remote Sensing: Lidar (Laser Radar) 5
- Optical Remote Sensing: Lidar (Laser Radar) 5
- Optoelectronics and Photovoltaic Technology 3
- Photonic Systems in Telecommunications: Lidar (Laser Radar) 3
- Photonics Systems in Telecommunications 3
- Power Control and Processing 5
- Power Electronic Circuits 5
- Principles of Control and Power Electronics 5
- Printed Circuit Board Design 2.5
- Programmable Electronics 5
- Quantum Communication and Computation 3
- Quantum Cryptography 5
- Quantum Information Theory 2.5
- Satellite Communications and Non-Terrestrial Networks 3
- Secure Optical Networks 3
- Seminar on Advanced Telecommunication Technologies 3
- Seminar on Blockchain 3
- Service Management with Fitsm 3
- Signal Processing 5
- Social Networks: Theory and Implementation 5
- Software Architecture 5
- Software-Based Digital Control Applications 2.5
- Solar Cells for Dummies 2.5
- Stochastic Processes 2.5
- Systems Based on Microprocessors 5
- Technology Asset Management 5
- Telecommunication Markets 5
- Telecommunication Systems Fundamentals 5
- Telecommunications and Electronics Seminar 2.5
- The Connected Vehicle 2.5
- The Way to 6g: Future Trends in Mobile Communications 3
- Transoceanic Communications 2.5
- Waves and Systems 5
- Advanced Digital Systems 5
- Advanced Digital Systems 5
- Alternative Computing Strategies with Emerging Nanoelectronic Devices 3
- Antennas and Microwaves 5
- Artificial Intelligence and Internet of Things (Iot) 3
- Automotive Embedded Systems 5
- Basic Mathematics for Algebraic Coding Theory with Applications to Cryptography 2.5
- Big Gnss Data: From Remote Sensing to Space Weather 3
- Blockchain 5
- Brief Course on The Mathematics Behind Coding Theory and Cryptography 3
- Building Your Career. From Academia to Startups & Beyond 2.5
- Coding of Audiovisual Contents 5
- Cognitive Radio and Spectrum Sharing: a Key Technology of 5G Networks 2.5
- Configurable Digital Electronics 5
- Control and Applications in Power Electronics 5
- Control Theory and Applications 5
- Critical Thinking and Creativity 5
- Cubesat-Based Mission Design and Testing 5
- Data Privacy 5
- Data Transmission Protocols 5
- Deep Learning for Computer Vision 2.5
- Deep Learning for Speech and Language 2.5
- Deep Learning for Vision 3
- Digital Communications 5
- Digital Nanoelectronic Design 5
- Earth and Cosmos 5
- Electronic Measurement Science and Technology 5
- Entrepreneurship for World Challenges 5
- Fiber Optic Infrastructure for 5G Networks 2.5
- Fibers and Telecommunications 3
- Financial Engineering: Applications to Information Technology Projects 2.5
- Future Trends in Mobile Communications: From 5G to 6g 2.5
- Graph Signal Processing 3
- Graphene and Carbon Nanotubes Introduction and Fundamentals 2.5
- Hands-On Quantum Computing and Artificial Intelligence 3
- High-Level Digital Design 5
- Instrumentation and Sensors 5
- Instrumentation and Sensors 5
- Integrated Photonics 3
- Interdisciplinary Innovation Project 5
- Introduction to Research 1 5
- Introduction to Research 2 5
- Introduction to Research 3 5
- Laboratory on Ultrasonic Electronics 3
- Laser Applications in Remote Sensing: Lidar 3
- Lidar Processing and Inversion: Applications to Remote Sensing of Physical Parameters 2.5
- Lidar Remote Sensing 2.5
- Marine Technology Instrumentation 5
- Matlab Programed Arduino for Control Applications 2.5
- Matrix Algebra, Accelerated Program 3
- Micro and Nano Electronic Design 5
- Micro and Nano Electronic Design 5
- Micro and Nanotechnologies 5
- Micro and Nanotechnologies 5
- Microwave Photonics 2.5
- Modern Channel Coding 3
- Nanotechnologies and Electron Devices 5
- Natural Language Processing with Deep Learning 3
- Network Performance Analysis and Evaluation 5
- Networking and Future Internet Opportunities 5
- New Telecom Markets 3
- Optoelectronics and Photovoltaic Technology 3
- Photonic Systems in Telecommunications: Lidar (Laser Radar) 3
- Power Control and Processing 5
- Power Electronic Circuits 5
- Principles of Control and Power Electronics 5
- Printed Circuit Board Design 2.5
- Programmable Electronics 5
- Quantum Communication and Computation 3
- Quantum Cryptography 5
- Quantum Information Theory 2.5
- Satellite Communications and Non-Terrestrial Networks 3
- Secure Optical Networks 3
- Seminar on Advanced Telecommunication Technologies 3
- Seminar on Blockchain 3
- Service Management with Fitsm 3
- Signal Processing 5
- Social Networks: Theory and Implementation 5
- Software Architecture 5
- Software-Based Digital Control Applications 2.5
- Solar Cells for Dummies 2.5
- Stochastic Processes 2.5
- Systems Based on Microprocessors 5
- Technology Asset Management 5
- Telecommunication Markets 5
- Telecommunication Systems Fundamentals 5
- Telecommunications and Electronics Seminar 2.5
- The Connected Vehicle 2.5
- The Way to 6g: Future Trends in Mobile Communications 3
- Transoceanic Communications 2.5
- Waves and Systems 5
- 5G Mobile Communications Systems 5
- 5G Mobile Communications Systems 5
- 5G Mobile Communications Systems 5
- Advanced Signal Processing: Tools and Applications 5
- Alternative Computing Strategies with Emerging Nanoelectronic Devices 3
- Antennas and Microwaves 5
- Artificial Intelligence and Internet of Things (Iot) 3
- Automotive Embedded Systems 5
- Basic Mathematics for Algebraic Coding Theory with Applications to Cryptography 2.5
- Big Gnss Data: From Remote Sensing to Space Weather 3
- Blockchain 5
- Brief Course on The Mathematics Behind Coding Theory and Cryptography 3
- Building Your Career. From Academia to Startups & Beyond 2.5
- Coding of Audiovisual Contents 5
- Cognitive Radio and Spectrum Sharing: a Key Technology of 5G Networks 2.5
- Configurable Digital Electronics 5
- Control and Applications in Power Electronics 5
- Control Theory and Applications 5
- Critical Thinking and Creativity 5
- Cubesat-Based Mission Design and Testing 5
- Data Privacy 5
- Data Transmission Protocols 5
- Deep Learning for Computer Vision 2.5
- Deep Learning for Speech and Language 2.5
- Deep Learning for Vision 3
- Digital Communications 5
- Earth and Cosmos 5
- Entrepreneurship for World Challenges 5
- Fiber Optic Infrastructure for 5G Networks 2.5
- Fibers and Telecommunications 3
- Financial Engineering: Applications to Information Technology Projects 2.5
- Future (Inter)Net(Works) 5
- Future Trends in Mobile Communications: From 5G to 6g 2.5
- Graph Signal Processing 3
- Graphene and Carbon Nanotubes Introduction and Fundamentals 2.5
- Hands-On Quantum Computing and Artificial Intelligence 3
- Integrated Photonics 3
- Interdisciplinary Innovation Project 5
- Introduction to Research 1 5
- Introduction to Research 2 5
- Introduction to Research 3 5
- Laboratory on Ultrasonic Electronics 3
- Laser Applications in Remote Sensing: Lidar 3
- Lidar Processing and Inversion: Applications to Remote Sensing of Physical Parameters 2.5
- Lidar Remote Sensing 2.5
- Machine Learning From Data 5
- Machine Learning From Data 5
- Marine Technology Instrumentation 5
- Matlab Programed Arduino for Control Applications 2.5
- Matlab: Fundamentals And/Or Applications 5
- Matlab: Fundamentals And/Or Applications 5
- Matlab: Fundamentals And/Or Applications 5
- Matlab: Fundamentals And/Or Applications 5
- Matrix Algebra, Accelerated Program 3
- Microwave Photonics 2.5
- Modern Channel Coding 3
- Natural Language Processing with Deep Learning 3
- Network Performance Analysis and Evaluation 5
- Networking and Future Internet Opportunities 5
- New Telecom Markets 3
- Optical Fiber Sensor Technologies 5
- Optical Fiber Sensor Technologies 5
- Optical Fiber Sensor Technologies 5
- Optical Fiber Sensor Technologies 5
- Optoelectronics and Photovoltaic Technology 3
- Photonic Integrated Devices for Telecom & Iot 5
- Photonic Systems in Telecommunications: Lidar (Laser Radar) 3
- Power Control and Processing 5
- Power Electronic Circuits 5
- Principles of Control and Power Electronics 5
- Printed Circuit Board Design 2.5
- Programmable Electronics 5
- Quality of Service in Networks 5
- Quality of Service in Networks 5
- Quantum Communication and Computation 3
- Quantum Cryptography 5
- Quantum Information Theory 2.5
- Satellite Communications and Non-Terrestrial Networks 3
- Secure Communications in Fiber-Optic Networks 5
- Secure Communications in Fiber-Optic Networks 5
- Secure Optical Networks 3
- Seminar on Advanced Telecommunication Technologies 3
- Seminar on Blockchain 3
- Service Management with Fitsm 3
- Signal Processing 5
- Social Networks: Theory and Implementation 5
- Software Architecture 5
- Software-Based Digital Control Applications 2.5
- Solar Cells for Dummies 2.5
- Stochastic Processes 2.5
- Systems Based on Microprocessors 5
- Technology Asset Management 5
- Telecommunication Markets 5
- Telecommunication Systems Fundamentals 5
- Telecommunications and Electronics Seminar 2.5
- The Connected Vehicle 2.5
- The Way to 6g: Future Trends in Mobile Communications 3
- Transoceanic Communications 2.5
- Waves and Systems 5
- Advanced Human Language Technologies 5
- Alternative Computing Strategies with Emerging Nanoelectronic Devices 3
- Antennas and Microwaves 5
- Artificial Intelligence and Internet of Things (Iot) 3
- Automotive Embedded Systems 5
- Basic Mathematics for Algebraic Coding Theory with Applications to Cryptography 2.5
- Big Gnss Data: From Remote Sensing to Space Weather 3
- Blockchain 5
- Brief Course on The Mathematics Behind Coding Theory and Cryptography 3
- Building Your Career. From Academia to Startups & Beyond 2.5
- Coding of Audiovisual Contents 5
- Cognitive Radio and Spectrum Sharing: a Key Technology of 5G Networks 2.5
- Computer Vision with Deep Learning 5
- Computer Vision with Deep Learning 5
- Configurable Digital Electronics 5
- Control and Applications in Power Electronics 5
- Control Theory and Applications 5
- Critical Thinking and Creativity 5
- Cubesat-Based Mission Design and Testing 5
- Cybersecurity Management 5
- Data Privacy 5
- Data Transmission Protocols 5
- Deep Learning for Artificial Intelligence 5
- Deep Learning for Artificial Intelligence 5
- Deep Learning for Computer Vision 2.5
- Deep Learning for Speech and Language 2.5
- Deep Learning for Vision 3
- Digital Communications 5
- Earth and Cosmos 5
- Entrepreneurship for World Challenges 5
- Fiber Optic Infrastructure for 5G Networks 2.5
- Fibers and Telecommunications 3
- Financial Engineering: Applications to Information Technology Projects 2.5
- Future Trends in Mobile Communications: From 5G to 6g 2.5
- Graph Signal Processing 3
- Graphene and Carbon Nanotubes Introduction and Fundamentals 2.5
- Hands-On Quantum Computing and Artificial Intelligence 3
- Integrated Photonics 3
- Interdisciplinary Innovation Project 5
- Introduction to Research 1 5
- Introduction to Research 2 5
- Introduction to Research 3 5
- Laboratory on Ultrasonic Electronics 3
- Laser Applications in Remote Sensing: Lidar 3
- Lidar Processing and Inversion: Applications to Remote Sensing of Physical Parameters 2.5
- Lidar Remote Sensing 2.5
- Marine Technology Instrumentation 5
- Matlab Programed Arduino for Control Applications 2.5
- Matrix Algebra, Accelerated Program 3
- Microwave Photonics 2.5
- Modern Channel Coding 3
- Natural Language Processing with Deep Learning 3
- Network Performance Analysis and Evaluation 5
- Networking and Future Internet Opportunities 5
- New Telecom Markets 3
- Optoelectronics and Photovoltaic Technology 3
- Photonic Systems in Telecommunications: Lidar (Laser Radar) 3
- Power Control and Processing 5
- Power Electronic Circuits 5
- Principles of Control and Power Electronics 5
- Printed Circuit Board Design 2.5
- Programmable Electronics 5
- Quality of Service in Networks 5
- Quality of Service in Networks 5
- Quantum Communication and Computation 3
- Quantum Cryptography 5
- Quantum Information Theory 2.5
- Satellite Communications and Non-Terrestrial Networks 3
- Secure Optical Networks 3
- Seminar on Advanced Telecommunication Technologies 3
- Seminar on Blockchain 3
- Service Management with Fitsm 3
- Signal Processing 5
- Social Networks: Theory and Implementation 5
- Software Architecture 5
- Software-Based Digital Control Applications 2.5
- Solar Cells for Dummies 2.5
- Speech and Language Processing with Deep Learning 5
- Speech and Language Processing with Deep Learning 5
- Stochastic Processes 2.5
- Systems Based on Microprocessors 5
- Technology Asset Management 5
- Telecommunication Markets 5
- Telecommunication Systems Fundamentals 5
- Telecommunications and Electronics Seminar 2.5
- The Connected Vehicle 2.5
- The Way to 6g: Future Trends in Mobile Communications 3
- Transoceanic Communications 2.5
- Waves and Systems 5
- Web & Mobile App Development 5
- Alternative Computing Strategies with Emerging Nanoelectronic Devices 3
- Antennas and Microwaves 5
- Artificial Intelligence and Internet of Things (Iot) 3
- Automotive Embedded Systems 5
- Basic Mathematics for Algebraic Coding Theory with Applications to Cryptography 2.5
- Big Gnss Data: From Remote Sensing to Space Weather 3
- Blockchain 5
- Brief Course on The Mathematics Behind Coding Theory and Cryptography 3
- Building Your Career. From Academia to Startups & Beyond 2.5
- Coding of Audiovisual Contents 5
- Cognitive Radio and Spectrum Sharing: a Key Technology of 5G Networks 2.5
- Configurable Digital Electronics 5
- Control and Applications in Power Electronics 5
- Control Theory and Applications 5
- Critical Thinking and Creativity 5
- Cubesat-Based Mission Design and Testing 5
- Cybersecurity Management 5
- Cybersecurity Management 5
- Cybersecurity Usecases 5
- Cybersecurity Usecases 5
- Data Privacy 5
- Data Protection 5
- Data Protection 5
- Data Transmission Protocols 5
- Deep Learning for Computer Vision 2.5
- Deep Learning for Speech and Language 2.5
- Deep Learning for Vision 3
- Digital Communications 5
- Distributed Systems, Internet and Web Technologies 5
- Earth and Cosmos 5
- Entrepreneurship for World Challenges 5
- Fiber Optic Infrastructure for 5G Networks 2.5
- Fibers and Telecommunications 3
- Financial Engineering: Applications to Information Technology Projects 2.5
- Future Trends in Mobile Communications: From 5G to 6g 2.5
- Graph Signal Processing 3
- Graphene and Carbon Nanotubes Introduction and Fundamentals 2.5
- Hands-On Quantum Computing and Artificial Intelligence 3
- Integrated Photonics 3
- Interdisciplinary Innovation Project 5
- Internet and Networked Economy 5
- Internet and Networked Economy 5
- Internet and Networked Economy 5
- Introduction to Research 1 5
- Introduction to Research 2 5
- Introduction to Research 3 5
- Laboratory on Ultrasonic Electronics 3
- Laser Applications in Remote Sensing: Lidar 3
- Lidar Processing and Inversion: Applications to Remote Sensing of Physical Parameters 2.5
- Lidar Remote Sensing 2.5
- Marine Technology Instrumentation 5
- Matlab Programed Arduino for Control Applications 2.5
- Matrix Algebra, Accelerated Program 3
- Microwave Photonics 2.5
- Modern Channel Coding 3
- Natural Language Processing with Deep Learning 3
- Network Performance Analysis and Evaluation 5
- Network Security - Authentication and Authorization 5
- Network Security - Authentication and Authorization 5
- Networking and Future Internet Opportunities 5
- New Telecom Markets 3
- Optimization and Artificial Intelligence Techniques in Network Management 5
- Optimization and Artificial Intelligence Techniques in Network Management 5
- Optoelectronics and Photovoltaic Technology 3
- Photonic Systems in Telecommunications: Lidar (Laser Radar) 3
- Power Control and Processing 5
- Power Electronic Circuits 5
- Principles of Control and Power Electronics 5
- Printed Circuit Board Design 2.5
- Programmable Electronics 5
- Quantum Communication and Computation 3
- Quantum Cryptography 5
- Quantum Information Theory 2.5
- Satellite Communications and Non-Terrestrial Networks 3
- Secure Optical Networks 3
- Seminar on Advanced Telecommunication Technologies 3
- Seminar on Blockchain 3
- Service Management with Fitsm 3
- Short Range Communications 5
- Short Range Communications 5
- Short Range Communications 5
- Signal Processing 5
- Social Networks: Theory and Implementation 5
- Software Architecture 5
- Software-Based Digital Control Applications 2.5
- Solar Cells for Dummies 2.5
- Stochastic Processes 2.5
- Systems Based on Microprocessors 5
- Technology Asset Management 5
- Telecommunication Markets 5
- Telecommunication Systems Fundamentals 5
- Telecommunications and Electronics Seminar 2.5
- The Connected Vehicle 2.5
- The Way to 6g: Future Trends in Mobile Communications 3
- Transoceanic Communications 2.5
- Waves and Systems 5
- Wireless Access Networks 5
- Wireless Access Networks 5
- Wireless Access Networks 5
- Alternative Computing Strategies with Emerging Nanoelectronic Devices 3
- Antennas and Microwaves 5
- Applied Convex Optimization 5
- Applied Convex Optimization 5
- Applied Convex Optimization 5
- Array Processing and Smart Antennas 5
- Array Processing and Smart Antennas 5
- Array Processing and Smart Antennas 5
- Artificial Intelligence and Internet of Things (Iot) 3
- Artificial Intelligence-Enabled 5G Radio Networks 5
- Artificial Intelligence-Enabled 5G Radio Networks 5
- Artificial Intelligence-Enabled 5G Radio Networks 5
- Automotive Embedded Systems 5
- Basic Mathematics for Algebraic Coding Theory with Applications to Cryptography 2.5
- Big Gnss Data: From Remote Sensing to Space Weather 3
- Blockchain 5
- Brief Course on The Mathematics Behind Coding Theory and Cryptography 3
- Building Your Career. From Academia to Startups & Beyond 2.5
- Coding of Audiovisual Contents 5
- Cognitive Radio and Spectrum Sharing: a Key Technology of 5G Networks 2.5
- Configurable Digital Electronics 5
- Control and Applications in Power Electronics 5
- Control Theory and Applications 5
- Critical Thinking and Creativity 5
- Cubesat-Based Mission Design and Testing 5
- Data Privacy 5
- Data Transmission Protocols 5
- Deep Learning for Computer Vision 2.5
- Deep Learning for Speech and Language 2.5
- Deep Learning for Vision 3
- Digital Communications 5
- Earth and Cosmos 5
- Entrepreneurship for World Challenges 5
- Fiber Optic Infrastructure for 5G Networks 2.5
- Fibers and Telecommunications 3
- Financial Engineering: Applications to Information Technology Projects 2.5
- Future Trends in Mobile Communications: From 5G to 6g 2.5
- Graph Signal Processing 3
- Graphene and Carbon Nanotubes Introduction and Fundamentals 2.5
- Hands-On Quantum Computing and Artificial Intelligence 3
- Information Theory 5
- Information Theory 5
- Information Theory 5
- Integrated Photonics 3
- Interdisciplinary Innovation Project 5
- Introduction to Research 1 5
- Introduction to Research 2 5
- Introduction to Research 3 5
- Laboratory on Ultrasonic Electronics 3
- Laser Applications in Remote Sensing: Lidar 3
- Lidar Processing and Inversion: Applications to Remote Sensing of Physical Parameters 2.5
- Lidar Remote Sensing 2.5
- Marine Technology Instrumentation 5
- Matlab Programed Arduino for Control Applications 2.5
- Matrix Algebra, Accelerated Program 3
- Microwave Photonics 2.5
- Modern Channel Coding 3
- Natural Language Processing with Deep Learning 3
- Network Performance Analysis and Evaluation 5
- Networking and Future Internet Opportunities 5
- New Telecom Markets 3
- Optoelectronics and Photovoltaic Technology 3
- Photonic Systems in Telecommunications: Lidar (Laser Radar) 3
- Power Control and Processing 5
- Power Electronic Circuits 5
- Principles of Control and Power Electronics 5
- Printed Circuit Board Design 2.5
- Programmable Electronics 5
- Quantum Communication and Computation 3
- Quantum Cryptography 5
- Quantum Information Theory 2.5
- Resource Management in Wireless Communications 5
- Resource Management in Wireless Communications 5
- Satellite Communications and Non-Terrestrial Networks 3
- Secure Optical Networks 3
- Seminar on Advanced Telecommunication Technologies 3
- Seminar on Blockchain 3
- Service Management with Fitsm 3
- Signal Processing 5
- Social Networks: Theory and Implementation 5
- Software Architecture 5
- Software-Based Digital Control Applications 2.5
- Solar Cells for Dummies 2.5
- Stochastic Processes 2.5
- Systems Based on Microprocessors 5
- Technology Asset Management 5
- Telecommunication Markets 5
- Telecommunication Systems Fundamentals 5
- Telecommunications and Electronics Seminar 2.5
- The Connected Vehicle 2.5
- The Way to 6g: Future Trends in Mobile Communications 3
- Transoceanic Communications 2.5
- Waves and Systems 5
Project
- Master's Thesis 30
- Master's Thesis 30
- Master's Thesis 30
- Master's Thesis 30
- Master's Thesis 30
- Master's Thesis 30
- CompulsoryECTS
- OptionalECTS
- ProjectECTS
Professional opportunities
- Professional opportunities
The areas in which graduates of this master’s degree may find employment are similar to those for graduates of the five-year degree in Telecommunications Engineering, although their profiles are enhanced by an extra academic year. Their careers may lead them to practise as:
Telecommunications engineers in any of the following areas:- Telecommunications operations.
- Telecommunications equipment industry.
- Electronic equipment industry.
- Semiconductor industry.
- IT consulting firms (network solution designers, network planners and designers, network project leaders, etc.).
- IT companies, from content producers and distributors to service providers.
- Regulatory bodies.
- Software editing firms.
- Other industries such as cars manufacturers and consumer and industrial electronics companies, and areas such as health, energy, intelligent transport systems, logistics and mobility, agricultural and food, air and maritime transport, railway infrastructure, control systems and security of facilities and electronic services transactions, as well as rapidly expanding areas such as smart cities, smart homes, smart grids and smart health.
Freelance professionals acting as telecommunications engineering advisors and consultants.
Sales engineers.
Civil servants or employees of public administrations at EU, national, regional and local level in the field of telecommunications and ICT innovation.
Research, development and innovation specialists in public and private companies.
Researchers and academics at public or private universities.
In addition to professionally oriented topics, the master’s degree offers highly specialised optional subjects intended for those students who are looking to pursue a doctoral degree in Telecommunications Engineering.
Labour Market
Every three years, the Catalan University Quality Assurance Agency (AQU) publishes a study about the employability of Catalan university graduates.The last of these studies, Universites and Employment in Catalonia 2014 analyses the employability of students who graduated in the 2009-2010 academic year.
The most significant labour market data for telecommunication engineers are the following:- The graduate employment rate is 92.6%.
- It takes 84% of graduates less than three months to find their first job.
- Of students who graduated in the 2009-2010 academic year, 78.5% earn over €2000 a month.
- Telecommunications engineering is in fourth place in the ranking of degree courses according to the Job Quality Index.
The Everis Foundation has issued a ranking of universities based on companies' views on the employability of new graduates. The UPC is the top Spanish university in the area of software and telecommunications engineering.
- Competencies
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Generic competencies
Generic competencies are the skills that graduates acquire regardless of the specific course or field of study. The generic competencies established by the UPC are capacity for innovation and entrepreneurship, sustainability and social commitment, knowledge of a foreign language (preferably English), teamwork and proper use of information resources.
Specific competencies
On completion of the course, students will have achieved competence in the following areas:- Communication systems: wired and wireless, optical fibre.
- Computer networks, internet, local area networks (Ethernet, Wi-Fi).
- Voice networks, video distribution and television streaming, P2P, mobile networks.
- Security in communication networks: encryption, user authentication, digital signatures.
- Radio navigation, global positioning systems (GPS).
- Radar.
- Information processing: encoding, compression, error correction, image recognition, video clip recognition, voice recognition, voice generation.
- Electronic components and circuits: microprocessor devices (routers, switches, etc.), sensors, actuators, transducers.
- Technology and electronics, analogue and digital electronic instrumentation, medical electronics, consumer electronics, control systems, robotics, automation.
- Micro- and nanotechnologies.
- Bioengineering applications, telemedicine, e-commerce platforms, smart cities, smart metering, sensor networks, smart homes, green computing, cloud computing.
- Master's degree in Telecommunications Engineering (en endavant MET, ETSETB) + Master's degree of Science in Engineering (To choose between 4 masters) (School of Electrical Engineering, KTH Royal Institute of Technology, Stockholm, Sweden)
- MET + Master in Management Grande Ecole Degree de l'HEC (École Des Hautes Études Commerciales (HEC), París) (Only ETSETB students to HEC, not vice versa)
- MET + Diplôme d'Ingénieur ISAE-SUPAERO (Institut Supérieur de l'Aeronautique et de l'Espace, Université Fédérale Toulouse Midi-Pyrénnés, Toulouse, França)
- MET + Maestría en Ingeniería de las Telecomunicaciones (Escuela de Postgrado, Pontificia Universidad Católica del Perú (PUCP), Lima, Perú)
- MET + Maestría en Sistema de Información (Facultad de Ingerniería, Universidad Católica Andrés Bello (UCAB), Caracas, Venezuela)
- MET + Master's degree of Science in Engineering (Illinois Institute of Technology (IIT), Chicago, USA) (To choose between 4 masters) (Only ETSETB students to Illinois, not vice versa)
- MET + Master's degree in Electrical Engineering and Information Technology / Master's degree in Information and Communication Engineering (Department of Electrical Engineering and Information Technology, Technische Universität Darmstadt, Darmstadt, Germany)
- MET + / Master of Science in Telecommunications Engineering o Master of Science in Electronics Engineering (Ingegnieria Industriale e dell'Informazione, Politecnico di Milano (POLIMI), Milan, Italy)
More information
Further information
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General academic calendar for degrees, masters and doctorates
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Current course (class schedules, master's calendar, exams, teachers, ...)
Organizing teaching center
Academic program manager
Academic calendar
Academic regulations
Academic and administrative procedures
List of courses and teaching guides
Pre-enrolment
Pre-enrolment for this master’s degree is currently closed.
Use the “Request information” form to ask for information on upcoming pre-enrolment periods.