Presentation

Objectives
The Master’s Degree Program in Telecommunication Engineering addresses the challenges of a society in which connectivity and ubiquity have become primary needs, and where there is a growing demand for innovative technologies for the acquisition, processing, and exchange of information to be used in cutting-edge systems and highly diverse scenarios.
The program provides graduates with advanced knowledge and adaptability skills to design, develop, and manage telecommunication systems in various fields, including personal and social communications, media, transportation, security, health, and the environment. Applications cover both terrestrial and space contexts, involving not only human users but also devices that, by interacting with one another, create a new paradigm of a world increasingly moving toward complete connectivity.

Program Structure
The two-year study program offers an immersive educational experience, divided into three phases:

  1. Phase 1 – Acquisition of fundamental knowledge in key areas such as information theory, decision and estimation theory, methodologies and advanced techniques for processing communication signals, artificial intelligence, networking, remote sensing, electromagnetism, and secure information exchange.
  2. Phase – Deepening knowledge and developing skills in one or more specific areas of telecommunication engineering. At this stage, students can personalize their learning path according to their interests through targeted choices among the groups of courses offered.
  3. Phase – Application of the acquired knowledge in specific contexts. This includes laboratory activities, the final thesis, and activities designed to facilitate entry into the job market, including possible internships. In this phase, students have the opportunity to tackle real-world telecommunication engineering problems and interact with industry specialists.

Career Opportunities
Thanks to comprehensive and multidisciplinary training, graduates of the Master’s in Telecommunication Engineering acquire a broad and systemic vision of the field, ensuring high versatility in the job market. They can take on professional roles in numerous areas, covering positions of technical leadership, management, and innovation, coordinating multidisciplinary teams, and contributing to the development of new technological solutions.
The main career opportunities include:

  • Specialists in fixed and mobile communication systems, with expertise in designing and managing network infrastructures;
  • Experts in telecommunications networks and services, with a focus on security, optimization, and advanced management of digital infrastructures;
  • Designers of remote sensing systems for environmental monitoring, space exploration, and surveillance applications;
  • Developers of architectures for multimedia data processing, with applications in streaming, artificial intelligence, and advanced digital communications.

The employment rate is extremely high, confirming the strong demand for these professionals in the global market.