Electronics and Telecommunications Engineering (ETE)

What is the objective of the course? What is it?
What does it train you for?

The Online Master's Degree in ETE has two main objectives:

1. To extend the University's second-level training offer, filling the lack of a pathway dedicated to the Telecommunications sector (a sector that is currently in full growth and with excellent employment prospects);
2. To intercept, thanks to the online mode, a new pool of students (both working students and foreign students), so as to increase the number of figures trained in the ICT sectors;
The Course aims to train professional figures with skills in the design, management and optimization of distributed electronic systems, telecommunications networks and services enabled by the availability of these systems (especially with reference to emerging cellular networks and the Internet of Things).

1. Basic skills in the field of electronics, namely design of programmable electronic systems, electronic circuits for radio-frequency applications, instrumentation and measurements, and numerical processing and transmission systems;
2. Skills in reference technologies for modern telecommunication systems (from fiber optics, to 5G/6G networks, to new communication bands from microwaves to Tera-Hertz);
and
3. Skills in the complete definition of network systems and services, with particular attention to protocols and security for IoT systems.

What do you learn?

The Master's Degree aims to offer an integrated course of study that allows the combination of the technological and applied aspects characteristic of Electronics with those of Telecommunications Engineering.

The LM-29 and LM-27 interclass pathway enhances the interdisciplinary nature of scientific skills and facilitates student transfers between courses in the two classes.

The Master's degree program is divided into three blocks of courses:

• Courses that constitute the training of the second-level Electronics Engineer, namely the in-depth study of applied electronics and programmable systems (APPLIED ELECTRONICS, ELECTRONIC PROGRAMMABLE SYSTEMS, DATA ANALYSIS, LASER AND OPTICAL COMMUNICATIONS);
• Courses that constitute the training of the second-level Telecommunications Engineer, namely, the in-depth study of wireless networks, digital telecommunications and cybersecurity (DIGITAL COMMUNICATIONS, DIGITAL SIGNAL PROCESSING, CELLULAR NETWORKS AND 5G, CYBERSECURITY);
• Courses that constitute the verticalization of knowledge in the area of Electromagnetic Fields and Electronic Measurements (ANTENNAS AND WIRELESS SYSTEMS, ELECTRONIC INSTRUMENTS AND MEASUREMENTS FOR TELECOMMUNICATIONS, MICROWAVE AND TERAHERTZ COMMUNICATIONS);
• Courses of the student's choice as additional preparation in the fields of Electronics and Telecommunications (INDUSTRIAL ELECTRONICS, NANOELECTRONICS, RADAR THEORY AND TECHNIQUES).

What can you do with it?

Master's Degree graduates in ETE are familiar with the methods and techniques for the design of electronic and optoelectronic systems, communication systems, and protocols.

Therefore, they are employed in the fields of design, development, engineering, production, operation, and maintenance of electronic and telecommunications systems, as well as in companies that actively use electronics and telecommunications, such as industry, automotive, energy, and bioelectronics.

They can find employment in public and private enterprises as consultants, employees of research and higher education institutions, and entrepreneurs.

In detail, typical employment areas for these graduates are companies producing, marketing and distributing electronic products and equipment; manufacturing and service companies using electronic technologies and network infrastructure for automation, or in civil, industrial and information; fixed and mobile network operators; networked telematics and multimedia sectors, such as electronic commerce and publishing, Internet services, telemedicine and telesurveillance; public and private companies providing terrestrial or space-based telecommunication services; public administrations; national and international scientific and technological research organizations; regulators and control unities.

They are eligible to enter the liberal profession upon passing the bar exam.