Enter OTP
6 Years On Campus Bachelors Program
Polytechnic University of CataloniaThis combined Bachelor's degree in Telecommunications Technologies and Services Engineering + Master's degree in Telecommunications Engineering at the Polytechnic University of Catalonia (UPC) equips you with cutting-edge skills to design, implement, and manage advanced telecom systems, networks, and services—perfect for students passionate about ICT, innovation, and real-world tech like 5G, smart cities, and AI-driven communications. It's ideal if you're excited by solving complex problems in rapidly evolving fields like telematic networks, audiovisual systems, and digital transformation, giving you a versatile edge in a job market hungry for telecom experts.
Curriculum Structure
Years 1-2 (Basic Formation): You'll start with a strong foundation in core sciences and engineering principles, building essential skills through modules like Mathematics (24 ECTS), Physics (11 ECTS), Computer Science (12 ECTS), Electronics (7 ECTS), and Business (6 ECTS). This phase, spread across the first three semesters, immerses you in the basics of computation, electromagnetics, and systems thinking, setting you up to tackle telecom-specific challenges with confidence. It's hands-on from the start, blending theory with practical tools to spark your interest in ICT engineering.
Year 3: Diving deeper, you'll explore key telecom concepts in courses like Digital Design, Electromagnetism, Introduction to ICT Engineering, Probability and Statistics, and Signals and Systems. These build your ability to handle signal processing, data analysis, and network fundamentals, with exciting electives like 3D with Kinect or Circuit Simulation and Analysis Using PSpice adding real-world flair. By semester's end, you'll be designing basic systems and understanding how signals power modern communications.
Year 4: Here, specialization ramps up with majors in Audiovisual Systems, Telecommunications Systems, or Network Systems, featuring courses such as Audiovisual and Communication Signal Processing, Data Transmission, Design of Microprocessor-Based Systems, and Radiation and Propagation. You'll tackle projects like Basic Engineering Project alongside intros to AI via Introduction to Deep Learning or Machine Learning: from Theory to Practice, preparing you for innovative applications in telecom design and security. This year sharpens your skills for implementing full systems, from hardware to software.
Years 5-6 (Master's Phase): The master's elevates you to expert level with advanced topics like Electronic System Design for Communications, Management of Telecommunications Projects, Overlay Networks, 5G Mobile Communications Systems, and Cybersecurity Management. You'll master future trends in The Way to 6G: Future Trends in Mobile Communications, quantum tech, and smart systems, culminating in a thesis that showcases your ability to lead complex projects. Graduates emerge ready to innovate in high-stakes environments like 6G networks and digital sustainability.
Focus Areas: Specialize in majors like Network Systems (telematic networks, security, protocols), Telecommunications Systems (radio/optical signals, smart cities), or Audiovisual Systems, with advanced master's electives in 5G/6G, quantum communications, and AI integration.
Learning Outcomes: Conceive, design, implement, and operate telecom/telematic systems; manage networks, security, and data protocols; lead R&D in ICT for industries like health, Industry 4.0, and smart cities; develop programming for applications and drive digital transformation projects.
Professional Alignment (Accreditation): This sequential program (PARS: Telecommunications Engineer) is officially accredited at UPC's Barcelona School of Telecommunications Engineering (ETSETB), delivering 360 ECTS for a full engineering qualification recognized across Europe for technical and managerial roles.
Reputation (Employability Rankings): UPC telecom grads boast excellent prospects, with versatile skills opening doors to roles like network security specialist, 5G project manager, AI telecom consultant, and digital transformation leader—crucial in booming sectors like ICT R&D, smart cities, and Industry 4.0, where demand outpaces supply per official UPC data.
At the Polytechnic University of Catalonia (UPC), our Degree in Telecommunications Technology and Services Engineering (leading into the Master's in Telecommunications Engineering (MET) at the Barcelona School of Telecommunications Engineering (ETSETB)) puts practical skills front and center, so you're not just learning theory—you're building real-world expertise in communications systems, networks, electronics, and more. You'll dive hands-on into state-of-the-art labs like the Antennas and Microwaves for Communication Systems Laboratory and Fibre Optic Telecommunications Laboratory, using tools such as PSpice for circuit simulation, Matlab for engineering applications, and Linux for system administration, all tailored to telecom projects.
This setup prepares you perfectly for industry through targeted experiential opportunities: here's what stands out for these programs, drawing directly from ETSETB's resources:
- Specialized laboratories: Access the Antennas and Microwaves Laboratory, Fibre Optic Telecommunications Laboratory, and facilities for Microwave Photonics and Terahertz Research, where you'll conduct experiments in radar, radionavigation, electronic instrumentation, and optoelectronics.
- Software and digital tools: Train with PSpice for circuit analysis, Matlab for signals and systems modeling, and Linux for network administration, plus tools for microelectronic design and wireless simulations.
- Group projects and cooperation: Engage in projects like Cooperation Project with Wifi Technologies, System Integration (12 ECTS), and teamwork in Information Processing Hardware Systems and Sensors, Actuators and Microcontrollers in Mobile Robots.
- Research-designated facilities: Work in ETSETB's advanced setup for telecom R&D, including labs for Photonic Devices, Space Telecommunications, and Reinforcement Learning/Deep Learning applications in engineering.
- Project-based learning: Tackle professional engineering projects in telecom, such as designing viable radio, fibre-optic, and wireless systems, often presented to committees—key for the MET specializations like Wireless Communications and Fibre Optic Communications.
Imagine applying right away to gain these edges and launch into high-demand telecom careers—spots fill fast, so let's get your application rolling!
At the Polytechnic University of Catalonia (UPC), our Degree in Electronic Engineering and Telecommunications (offered at the Barcelona School of Telecommunications Engineering, ETSETB) combined with the Master's in Telecommunications Engineering (MET) gives you hands-on experience from day one, building real-world skills in electronics, networks, communications systems, and cutting-edge tech like wireless and photonics. You'll dive into practical labs, simulations, and projects using professional-grade tools right on campus, preparing you to design, test, and innovate in telecommunications—just like industry pros do. This pathway equips you with the expertise companies crave, through facilities like specialized clean rooms and telecom labs at ETSETB.
Here's how you'll gain that edge with specific hands-on opportunities in these programs:
- Laboratories for antennas, microwaves, photonics, and fibre optics: Work in dedicated labs like Antennas and Microwaves for Communication Systems Laboratory and Fibre Optic Telecommunications Laboratory, experimenting with real microwave photonics, terahertz applications, and optoelectronics.
- Circuit simulation and advanced software tools: Use PSpice for circuit analysis, Matlab for engineering applications, and tools for microelectronic design, system integration, and reinforcement learning in projects like digital design and smart electronics.
- Group and cooperation projects: Tackle team-based challenges such as Cooperation Project with Wifi Technologies, System Integration (12 ECTS), and engineering projects in wireless communications, radar systems, and information security.
- Clean Room facility for semiconductors and microelectronics: Access UPC's pioneering Clean Room on the North Diagonal Campus (operational since 1985) for manufacturing devices down to one micron, with optical lithography, thin film deposition, high-temperature furnaces, and more—perfect for telecom electronics research.
- Electronics and instrumentation labs: Hands-on with electronic devices, sensors, actuators, microcontrollers in mobile robots, photovoltaic devices, and analogue microelectronic circuits design.
This practical focus at UPC's top facilities will set you up for success—imagine graduating ready to lead in telecom innovation.
Number of Places: 40Admission is through the Catalan university pre-enrolment system for bachelor’s degree access.Students must meet the general requirements to enrol in a bachelor’s degree in Spain.Selection is based on the admission cut-off mark, which is 11.260 for the 2025-2026 academic year.Telecommunications EngineerNetwork EngineerMobile Communications EngineerFibre Optics EngineerRadio Communications EngineerIoT Systems EngineerCybersecurity EngineerSignal Processing EngineerAudiovisual Systems EngineerTelecommunications Project ManagerICT ConsultantSystems Integration EngineerWireless Communications EngineerSatellite Communications Engineer
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