- International Degree Programs
- Master's Degree in COMMUNICATION ENGINEERING AND ELECTRONIC TECHNOLOGIES
Master's Degree in COMMUNICATION ENGINEERING AND ELECTRONIC TECHNOLOGIES
- Degree course in italian
- INGEGNERIA DELLE TELECOMUNICAZIONI E DELLE TECNOLOGIE ELETTRONICHE
- Degree course
- COMMUNICATION ENGINEERING AND ELECTRONIC TECHNOLOGIES
- Title
- Master's Degree
- MIUR Class
- Classe delle lauree magistrali in Ingegneria delle telecomunicazioni - LM-27 (DM270)
- Length
- 2 years
- Credits
- 120
- Department
- ENGINEERING FOR INNOVATION
- Website
- https://www.unisalento.it/didattica/cosa-studiare/corsi-di-laurea-magistrale/-/dettaglio/corso/LM65/communication-engineering-and-electronic-technologies
- Language
- ENGLISH
- Location
- Lecce-
- Academic year
- 2024/2025
- Type of access/Available places
- Free access course
- Career opportunities
- 2.1.1.4.2 - Analisti di sistema
2.1.1.5.1 - Specialisti in reti e comunicazioni informatiche
2.1.1.5.4 - Specialisti in sicurezza informatica
2.2.1.4.1 - Ingegneri elettronici
2.2.1.4.3 - Ingegneri in telecomunicazioni
Course description
The MS provides graduates with the opportunity to enter the engineering profession in the field of design, development, operation and maintenance of modern telecommunication (TLC) systems. The following principles and enabling technologies are covered.
- The physical layer of modern TLC systems (modulation formats, equalization techniques, multiple access, etc.); statistical processing of signals; design and allocation of resources in modern TLC networks.
- CAD of antennas and electromagnetic (EM) circuits; EM compatibility; radio-propagation models and optimization of radio coverage.
- Aspects of circuit electronics and devices of interest for this sector.
The MS includes an overview of modern digital communication systems. Emphasis is placed on cellular networks and navigation systems.
- The physical layer of modern TLC systems (modulation formats, equalization techniques, multiple access, etc.); statistical processing of signals; design and allocation of resources in modern TLC networks.
- CAD of antennas and electromagnetic (EM) circuits; EM compatibility; radio-propagation models and optimization of radio coverage.
- Aspects of circuit electronics and devices of interest for this sector.
The MS includes an overview of modern digital communication systems. Emphasis is placed on cellular networks and navigation systems.
Admission to the MS In Communication Engineering and Electronic Technologies requires a Bachelor of Science in Information Engineering or other equivalent and approved qualification obtained abroad. Furthermore, a minimum level of English proficiency equal to B2 is required. The candidate’s preparation will be assessed after verification of the existence of the curricular requirements.
Graduates will be able to carry out professional activities in ICT companies, from those involved in the design, testing, and development of TLC systems, to those oriented to ICT-based services and applications ( hardware, software, and services for wireless communications and IoT; audio and video processing; TLC services and remote sensing terrestrial or space-based).
The degree is awarded after passing the final exam, which consists in the presentation of the Master Thesis to a Degree Board. The thesis must be based on activities carried out under the supervision of one of the professors of the master's degree and need not be original.
Yes
"Di Ateneo" - Single university degree (Final award of the degree issued by the University of Salento)
giuseppina.monti@unisalento.it
Course modules
Electronic Systems and Technologies
DIGITAL COMMUNICATIONS (ING-INF/03)
9 credits - Compulsory
ELECTRONIC AND PHOTONIC DEVICES (ING-INF/01)
6 credits - Compulsory
MATHEMATICAL METHODS FOR ENGINEERING (MAT/05)
9 credits - Compulsory
MICROELECTRONIC DESIGN C.I. RF MICROELECTRONICS C.I.
12 credits - Compulsory
MICROELECTRONIC DESIGN C.I.
6 credits
RF MICROELECTRONICS C.I.
6 credits
MICROWAVES (ING-INF/02)
9 credits - Compulsory
STATISTICAL SIGNAL PROCESSING AND LEARNING (ING-INF/03)
9 credits - Compulsory
CAD AND LABORATORY OF HIGH FREQUENCY CIRCUITS AND ANTENNAS (ING-INF/02)
12 credits - Compulsory
FINAL EXAM (PROFIN_S)
12 credits - Compulsory
INSTRUMENTATION AND MEASUREMENT LABORATORY (ING-INF/07)
6 credits - Compulsory
INTERNSHIP/TRAINING (NN)
3 credits - Compulsory
NANOTECHNOLOGIES FOR ELECTRONIC (ING-INF/01)
6 credits - Compulsory
SIGNALS ACQUISITION AND ELECTRONIC DESIGN (ING-INF/01)
9 credits - Compulsory
WIRELESS SYSTEMS (ING-INF/03)
9 credits - Compulsory
Telecom Applications
DIGITAL COMMUNICATIONS (ING-INF/03)
9 credits - Compulsory
ELECTRONIC AND PHOTONIC DEVICES (ING-INF/01)
6 credits - Compulsory
MATHEMATICAL METHODS FOR ENGINEERING (MAT/05)
9 credits - Compulsory
MICROELECTRONIC DESIGN C.I. RF MICROELECTRONICS C.I.
12 credits - Compulsory
MICROELECTRONIC DESIGN C.I.
6 credits
RF MICROELECTRONICS C.I.
6 credits
MICROWAVES (ING-INF/02)
9 credits - Compulsory
STATISTICAL SIGNAL PROCESSING AND LEARNING (ING-INF/03)
9 credits - Compulsory
APPLIED ELECTROMAGNETICS (ING-INF/02)
9 credits - Compulsory
CAD AND LABORATORY OF HIGH FREQUENCY CIRCUITS AND ANTENNAS (ING-INF/02)
12 credits - Compulsory
FINAL EXAM (PROFIN_S)
12 credits - Compulsory
INSTRUMENTATION AND MEASUREMENT LABORATORY (ING-INF/07)
6 credits - Compulsory
INTERNSHIP/TRAINING (NN)
3 credits - Compulsory
LABORATORY OF WIRELESS COMMUNICATIONS AND RADAR (ING-INF/03)
6 credits - Compulsory
WIRELESS SYSTEMS (ING-INF/03)
9 credits - Compulsory