Master degree. The graduate program in Telecommunication Engineering covers enabling technologies of electromagnetic fie
FACULTY OF ENGINEERING COMMUNICATION ENGINEERING Master degree The graduate program in Telecommunication Engineering covers enabling technologies of electromagnetic fields, signal processing, microelectronics, and semiconductor devices; the aim of the course is to impart our alumni/ae with knowledge and skills needed for the design, the development and the manufacturing of products and services of interest for the engineering sector in the broad area of telecommunications.
At the end of their studies the master graduates will be able to use acquired knowledge of principles and tools of mathematics and physics to model and solve complex engineering problems; will have a good knowledge of engineering disciplines and an advanced knowledge of telecommunication engineering disciplines to be able to identify, model, and solve, even resort to innovative solutions, complex problems; will be able to envisage, design, and maintain complex and/or innovative products, processes, and services; will conceive and lead complex experiments; have context knowledge and interdisciplinary abilities; use English language fluently with special emphasis on scientific English.
Entry requirements First-cycle degree, or three-year University diploma, or second cycle degree, or five-year university degree issued by an Italian University or any other title taken abroad and classified equivalent to one of the previous ones, enrollement to a master degree in thematic field. Certification of an English language examination or English exam; English test can be substituted by a CEF (Common European Network) certification of level B1 or higher.
Duration full-time over four semesters (2 Years)
Master graduates can work The Communication Engineer can operate at the highest levels in the freelance sector, in companies and public administration too, combining technical and engineering skills and knowledge to organizational skills and coordination.
Courses for all • Mathematical methods for engineering • Statistical signal processing • Advanced physics • Digital transmission theory • Microwaves • Electronic and photonic device • Cad of high frequency circuits and antennas • Applied electromagnetics • Measurement for telecommunications • Electronic for signal acquisition • English II • Telecommunication systems One of the following courses o Nanotechnologies for electronics o RF microelectronics At the end of the course is expected a stage in company and a final thesis that will consolidate knowledge on a specific research topic.
