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Academic Year 2024/25 School of Industrial and Information Engineering Degree Programme of: Telecommunication Engineering Laurea Magistrale (Equivalent To Master Of Science) Milano Campus
1. General Information School | School of Industrial and Information Engineering | Code Reference Law | 474 | Name | Telecommunication Engineering | Reference Law | Ordinamento 270/04 | Class of degree | LM-27 - Telecommunications engineering | Degree level | Laurea Magistrale (Equivalent To Master Of Science) | First year of activation | 2010/2011 | Official length of the programme | 2 | Years of the programme already activated | 1,2 | Official language(s) | The Laurea Magistrale (equivalent to Master of Science) programme is offered in English but the degree programme meets the requirements of MIUR (Ministry of Education, Universities and Research) note of 11.07.2018 and the CUN opinion of 10.23.2018. | Campus | Milano | Dean of the School | Antonio Capone | Coordinator of the Study programme | Matteo Cesana | Website of the School | http://www.ingindinf.polimi.it | Website of the Study programme | |
Central Student Office - Milano Leonardo Address | VIA C. GOLGI, 42 (MI) |
2. General presentation of the study programmeThe Master of Science in Telecommunication Engineering requires two years of training after obtaining the Bachelor of Science Degree. It enriches the curriculum of the graduate with the necessary theoretical and scientific formation, in order to develop the knowledge and ability to design and innovate in a constantly evolving field.
The Master of Science in Telecommunication Engineering covers many disciplines apparently far from each other that have developed over the years from a common cultural basis. This Engineering field deals with the study, design, implementation, and management of communication networks (including the Internet), information transmission systems and devices, processing systems for voice, sound, data, images, and remote sensing. The Telecommunication Engineering allows to deliver applications and services to users anywhere in the world: e-commerce, real-time multimedia applications, secure e-banking, remote medical diagnostics, exchange of music and video on both fixed and mobile devices. Moreover advanced technologies for the Earth surface monitoring and for oil exploration are developed within the Telecommunications Engineering area.
The Master of Science in Telecommunication Engineering allows flexibility in the definition of the individual study program with the opportunity to specialize in areas of growing interest such as:
- Communications systems and transmission techniques
- Communications networks
- Signal processing
- Technologies and devices
- Internet engineering, Internet of Things
- Smart interconnected objects
- Multimedia
- Remote sensing
- Wireless communications and networks
- Optical communications and networks
- Satellite and navigation systems
- Machine Learning
- Signals and Data Analysis
Detailed information on Telecommunication Engineering can be found in the study program web site (https://www.ccstlc.polimi.it/
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3. Learning objectivesThe Master of Science in Telecommunication Engineering is characterized by a strong scientific and technological curriculum. The goal is to train experts who can understand and anticipate the technological evolutions, leveraging cutting-edge research results to design and analyze the complex telecommunications systems nowadays impacting several industrial sectors which are often multidisciplinary. The Telecommunications Engineer will then have to acquire a solid knowledge of the mathematical tools necessary to analyze and design such complex telecommunication systems, and he will have to build up a thorough understanding of advanced technologies that are currently used in the various fields of telecommunications. Moreover he will have to develop a good ability to explore and assess the market trends in view of innovative applications, with a strong attitude towards teamwork and the ability to convey the results of his/her work in a clear and organized way.
4. Organization of the study programme and further studies 4.1 Structure of the study programme and QualificationsTelecommunication Engineering is a two-year program leading to a Master of Science degree. Graduates can apply for a three-year doctoral program.
Each of the two-year degree course is divided into two semesters. To allow access to the course Master of Science at the beginning of each semester, the first and the second half of each year are interchangeable. The lessons can then be followed without significant problems both in the natural order (1st semester, 2nd semester) and in the reverse order (2nd semester, 1st semester).
4.2 Further StudiesThe qualification grants access to "Dottorato di Ricerca" (Research Doctorate), "Corso di Specializzazione di secondo livello" (2nd level Specialization Course) and "Master Universitario di secondo livello" (2nd level University Master)
A Master Degree is required to apply for a position of Doctorate (PhD) student.
5. Professional opportunities and work market5.1 Professional status of the degreeThe graduate in Telecommunications Engineering can take an examination to get an engineering license and join the Italian professional register of information engineers. There exist different registers for graduates holding a Bachelor of Science degree and graduates holding a Master of Science degree. However, in Italy it is not usually necessary to belong to the national register of engineers in order to practice, either in industry or in public administration. 5.2 Careers options and profilesTelecommunication Engineering offers challenging and fulfilling careers for engineering technologists and managers in many fields where Telecommunications are of paramount importance. A Telecommunication Engineer can cover key positions in the field of research, development, innovation and management of infrastructures of communications services working with big or small medium size companies that today represent the most dynamic part of this economic sector. Good employment positions can be found as network experts in fields different from Telecommunications as signal processing experts in oil as well as mechanical and biomedical companies. The most motivated and creative students can also start new companies as shown by the several successful cases of spin-off companies founded in the framework of our study program (more information about the spin-off companies of Telecommunication Engineering can be found on the web site Ingegneria delle Telecomunicazioni – Ingegneria Industriale e dell'Informazione (polimi.it)). Most of the students who graduate in Telecommunication Engineering at the Politecnico di Milano find good job opportunities in Italy and abroad thanks to their good technical preparation and to the favorable geographic location of our university at the center of the area with the highest density and quality of Communication Technologies companies in Italy and with relations with most of the industrial districts around the world. 5.3 Qualification profileTelecommunication Engineer
Profile in the job market Qualified experts able to anticipate the technological evolution and to design and analyze complex telecommunication systems in several high-tech, often multidisciplinary, industrial sectors. More in details, the target professional areas of a Telecommunications Engineer include research, innovation and development, advanced design and planning, as well as infrastructure and process management in the telecommunication service sector.
The Laurea Magistrale Study Programme in Telecommunication Engineering is part of the Class LM-27 and allows the access - after passing the State examination - to the National Register of Engineers, Information Sector, with the qualification of Engineer. Nowadays, registration in the Register is not generally required to carry out the professions related to telecommunications, neither in the private field nor in the public field.
skills and background: Specific skills: - analyse and design complex telecommunication systems; - apply the advanced technologies that are currently used in several telecommunication sectors; - explore and evaluate the offer and market trends in view of innovative applications; - process multimedia signals; - apply remote sensing techniques; - analyse, understand and design optical and radio communication systems; - design communication networks - design Internet Engineering systems; - coordinate multidisciplinary groups to face and solve the problems of the sector.
Job opportunities: The training offered by the Laurea Magistrale (equivalent to Master of Science) study programme in Telecommunication Engineering allows the graduate student to quickly enter the job market and the opportunity to hold positions of responsibility in different sectors of industry, services and research. Some reference professional areas are those of research, innovation and development, advanced design and planning, as well as infrastructure and process management in the telecommunication service sector. The access to the job market can be directed to big companies of manufacturers and operators, as well as the diverse world of small and medium-sized companies that today represent the most dynamic part of this economic sector. It is also possible to enter different sectors as network experts and/or experts in signal processing at oil or manufacturing companies in the mechanical, biomedical and non-destructive testing sectors. The study programme also provides the required skills to support entrepreneurial activities, as demonstrated by the numerous success stories of spin-off and start-up companies at Politecnico (information on spin-off companies born in the field of Telecommunication Engineering are available on the website of Study Programme.
The Telecommunication Engineers graduated at Politecnico di Milano have no problems in entering the Italian and international job market, thanks to the quality of their education; in this respect, the area of Milan is extremely attractive as far as the job offers are concerned, since numerous companies in the field of communication technologies have their premises there.
6. Enrolment6.1 Access requirementsFirst cycle degree (level 6 EQF) or comparable qualification
The access to the Master of Science curriculum for INTERNATIONAL STUDENTS is regulated by the rules reported in the web site:
Application Procedures: polimi
For students with a bachelor degree from an Italian university, please refer to the version of the educational rules in Italian.
An Admission Committee of the study program in Telecommunication Engineering evaluates all the admission requests and take final decisions based on the curriculum of each candidate and the documents provided in the application.
Admission to the program does not imply the validation of credits that the students have earned in their former career. The obligations to be satisfied by the candidates in order to get the MSc Degree are determined on an individual basis by the Committee based on the number and type of credits earned in the student’s former career.
Upon admission, the Admission Committee may assign obligation courses to be mandatorily inserted in the student's study plan. These obligation courses are part of the 120CFUs required for graduation (see Section 6.2). 6.2 Requested knowledgeA solid background in the fundamentals of engineering is requested, i.e. in Mathematics, Computer Science, Physics. Adequate skills are also requested in the core Telecommunications disciplines. Finally, it is advisable to have some background in the Electronics field.
Moreover, background knowledge is required in the four main characterizing fields of Telecommunications Engineering including electromagnetic fields, communication systems, computer networks and signals theory. Admitted students may be requested by the Admission Committee to fill some knowledge gaps in one or more of these aforementioned fields by adding to the student’s study plan equalizing courses. Based on the weak spots of the student, the Admission Committee may force one or more of the following courses in the student’s study plan:
- Fundamentals of Electromagnetics Fields (5CFU)
- Fundamentals of Signals and Systems (5CFU)
- Fundamentals of Communication Networks (5CFU)
These obligatory courses are though included in the the 120 credits required for graduation.6.3 Deadlines for admission and number of places availableDetailed information on the admission procedures can be found at: https://www.poliorientami.polimi.it/6.4 Tutoring and students supportThe tutor system was introduced with the Law no. 341 of 1990 (university academic systems’ Reform) aimed at “guiding and assisting students throughout their studies and encouraging them to actively participate in their education, removing obstacles preventing them from successfully attending courses, even through initiatives based on the needs and attitudes of the individuals” (Article 13).
7. Contents of the study Program7.1 Programme requirementsThe Master of Science program in Telecommunications Engineering consists of a total of 120 credits (CFU- "Crediti Formativi Universitari") according to the following specifications: - between 50 and 80 credits in core courses from Tables COMMUNICATIONS METHODOLOGIES and COMMUNICATIONS TECHNOLOGIES (Telecommunications and Electromagnetic fields); - between 15 and 45 credits in complementary courses from Tables MATHEMATICS, COMPUTER SCIENCE, ELECTRONICS & PHYSICS; - 17 credits for the Master Thesis depending on the specific study plan.
The Master of Science program in Telecommunications Engineering consists of a total of 120 credits (CFU- "Crediti Formativi Universitari") according to the following specifications: - between 50 and 80 credits in core courses from Tables COMMUNICATIONS METHODOLOGIES and COMMUNICATIONS TECHNOLOGIES (Telecommunications and Electromagnetic fields); - between 15 and 45 credits in complementary courses from Tables MATHEMATICS, COMPUTER SCIENCE, ELECTRONICS & PHYSICS; - 17 credits for the Master Thesis depending on the specific study plan.
According to Law No. 33 of April 12, 2022, simultaneous enrollment in two programs is allowed. Enrollment in two programs is possible only if they are of different degree classes (classi di laurea) and differ in at least two-thirds of their educational activities regarding academic credits.
Consistent with what is defined by Law No. 33, at the student's instance, the maximum number of CFUs already taken in the other program and validatable is 40 CFUs for MSc programmes.
Please note that courses belonging to programs of a different level or type from the program you are enrolled in cannot be validated.
Full details on when to apply for validation and the administrative fees to be paid are available on the Polimi website: https://www.polimi.it/contemporanea-iscrizione 7.2 Mode of studyThe Course requires full time attendance and involves classroom and laboratory activities. 7.3 Detailed learning objectivesThe Master of Science in Telecommunications Engineering provides a unique training program described in the following tables. The student can thus design his/her individual study program by choosing among many different courses.
Individual study programs are evaluated by a Study Program Committee which is in charge of approving them based on their coherence with the general learning objectives of the MSc in Telecommunication Engineering. Students are expected to contact the member of the committee before submitting their study program to get advise and suggestions (the name of the committee members are available at the web page https://www.ccstlc.polimi.it/).
A number of officially pre-approved study programs are reported in the next sections and can be selected into the web application for student study programs.
Studies are organized into semesters: some courses are offered in the first half (roughly from the beginning of October and the end of January), others in the second half (roughly between early March and the end of June).
Organization of first and second year of studies
Important Notes
In addition to the constraints indicated in the tables above, the following rules apply to individual study programs:
1 – Students must select at least 20 credits from list COMMUNICATIONS METHODOLOGIES.
2 – Total credits from lists COMMUNICATIONS METHODOLOGIES and COMMUNICATIONS TECHNOLGIES must be between 50 and 80.
3 – Total credits from lists MATHEMATICS, COMPUTER SCIENCE, and ELECTRONICS & PHYSICS must be between 15 and 45.
4- The 3 LAB EXPERIENCE credits may be added only once in the study plan either in the second or in the third semester of career.
5 – The admission committee can assign as mandatory some courses that are not included in the tables:
- Fundamentals of Communication Networks (5 cr)
- Fundamentals of Electromagnetic Fields (5 cr)
- Fundamentals of Signals and Transmission (5 cr)
The credits of these courses must be compensated in the individual study program not including some of the optional courses in positions 4 or 5 of the second year.
LISTS OF COURSES
Courses of the Group COMMUNICATION METHODOLOGIES
Courses of the Group COMMUNICATIONS TECHNOLOGIES
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | 091041 | B | ING-INF/03 | AUDIO SIGNALS | | 1 | 5,0 | 055551 | B | ING-INF/03 | COMMUNICATION NETWORK DESIGN | | 1 | 5,0[1,0 ] | 054313 | B | ING-INF/03 | DIGITAL COMMUNICATION I | | 1 | 5,0 | 054314 | B | ING-INF/03 | DIGITAL COMMUNICATION II | | 1 | 5,0[2,0 ] | 093506 | B,C | ING-INF/02 | ELETTROMAGNETISMO E CAMPI | | 1 | 10,0 | 094789 | B | ING-INF/03 | GEOPHYSICAL IMAGING | | 1 | 5,0 | 056834 | B | ING-INF/03 | NETWORK AUTOMATION | | 1 | 5,0[1,0 ] | 051178 | B | ING-INF/03 | OPTICAL AND TRANSPORT NETWORKS | | 1 | 5,0 | 055552 | B | ING-INF/03 | RADAR IMAGING | | 1 | 5,0[1,0 ] | 054316 | B | ING-INF/03 | VIDEO SIGNALS | | 1 | 5,0[1,0 ] | 054320 | B | ING-INF/03 | WIRELESS COMMUNICATIONS | | 1 | 10,0[1,0 ] | 054318 | B | ING-INF/03 | AUDIO AND VIDEO SIGNALS | | 1 | 10,0[1,0 ] | 057517 | B | ING-IND/34 ING-INF/03 | COMMUNICATION IN GREEN INFRASTRUCTURES | | 1 | 5,0 | 055556 | B | ING-INF/03 | GEOPHYSICAL AND RADAR IMAGING | | 1 | 10,0[1,0 ] | 054321 | B,C | ING-INF/02 | ANTENNAS | | 2 | 5,0[1,0 ] | 057886 | B | ING-INF/03 | CLASSICAL AND QUANTUM ERROR CORRECTION | | 2 | 5,0 | 054305 | B,C | ING-INF/02 | DISPOSITIVI PER LA TRASMISSIONE DELL'INFORMAZIONE | | 2 | 5,0 | 055521 | -- | ING-IND/31 | ELECTROMAGNETIC COMPATIBILITY C | | 2 | 5,0[2,0 ] | 058725 | B,C | ING-INF/02 | EM WAVE PROPAGATION FOR SPACE-BORNE SYSTEMS | | 2 | 5,0 | 054322 | B | ING-INF/03 | INFORMATION THEORY | | 2 | 5,0[1,0 ] | 054323 | B | ING-INF/03 | INTERNET OF THINGS | | 2 | 5,0[1,0 ] | 059431 | B | ING-INF/03 | INTRODUZIONE ALLE TECNOLOGIE DI INTERCONNESSIONE | | 2 | 5,0 | 054309 | B | ING-INF/03 | LOCALIZATION, NAVIGATION AND SMART MOBILITY | | 2 | 5,0[1,0 ] | 094791 | B,C | ING-INF/02 | MICROWAVE ENGINEERING | | 2 | 5,0 | 054325 | B | ING-INF/03 | MOBILE RADIO NETWORKS | | 2 | 5,0[1,0 ] | 089043 | B | ING-INF/03 | MULTIMEDIA INTERNET | | 2 | 10,0 | 054329 | B | ING-INF/03 | NETWORK SECURITY AND CRYPTOGRAPHY | | 2 | 5,0[1,0 ] | 091020 | B | ING-INF/03 | OPTICAL INTERCONNECTS | | 2 | 5,0 | 051231 | B | ING-INF/03 | OTTICA E IMMAGINI | | 2 | 5,0 | 096115 | B,C | ING-INF/02 | PHOTONIC DEVICES | | 2 | 10,0 | 059430 | B | ING-INF/03 | PROBLEMI INVERSI APPLICATI AL TELERILEVAMENTO | | 2 | 5,0 | 052470 | B | ING-INF/03 | QUANTUM COMMUNICATIONS | | 2 | 5,0 | 051230 | B | ING-INF/03 | SICUREZZA DELLE RETI | | 2 | 5,0 | 051234 | B | ING-INF/03 | SOFTWARE DEFINED NETWORKING | | 2 | 5,0 | 054330 | B,C | ING-INF/02 | WIRELESS AND MOBILE PROPAGATION | | 2 | 5,0[1,0 ] | 054327 | B | ING-INF/03 | WIRELESS INTERNET | | 2 | 5,0[1,0 ] | 062131 | B,C | ING-INF/02 | PHOTONIC COMPUTING | | 2 | 5,0 | 056837 | B | ING-INF/03 | NETWORK MEASUREMENT AND DATA ANALYSIS LAB | | 2 | 5,0 | 054328 | B | ING-INF/03 | WIRELESS NETWORKS | | 2 | 10,0[2,0 ] | 058172 | B | ING-INF/03 | NETWORK COMPUTING | | 2 | 5,0 |
Courses of the Group COMPUTER SCIENCE
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | 095903 | C | ING-INF/05 | ADVANCED OPERATING SYSTEMS | | 1 | 5,0 | 085887 | C | ING-INF/05 | BASI DI DATI 1 | | 1 | 5,0 | 089183 | C | ING-INF/05 | DATA BASES 2 | | 1 | 5,0 | 056892 | C | ING-INF/05 | DATA MINING | | 1 | 5,0 | 093212 | C | ING-INF/05 | DESIGN AND IMPLEMENTATION OF MOBILE APPLICATIONS | | 1 | 5,0 | 090950 | C | ING-INF/05 | DISTRIBUTED SYSTEMS | | 1 | 5,0 | 056899 | C | ING-INF/05 | EMBEDDED SYSTEMS | | 1 | 5,0 | 052369 | C | ING-INF/04 | NETWORKED CONTROL | | 1 | 5,0 | 061723 | C | ING-INF/05 | NETWORKED SOFTWARE FOR DISTRIBUTED SYSTEMS | | 1 | 5,0[5,0 ] | 052534 | C | ING-INF/05 | RECOMMENDER SYSTEMS | | 1 | 5,0[2,0 ] | 085877 | C | ING-INF/05 | RETI LOGICHE | | 1 | 5,0 | 054443 | C | ING-INF/05 | SOFTWARE ENGINEERING 2 | | 1 | 5,0[2,0 ] | 056895 | C | ING-INF/05 | STREAMING DATA ANALYTICS G | | 1 | 5,0 | 056901 | C | ING-INF/05 | SYSTEMS AND METHODS FOR BIG AND UNSTRUCTURED DATA | | 1 | 5,0 | 091023 | C | ING-INF/05 | BUSINESS INFORMATION SYSTEMS 1 | | 2 | 5,0 | 090958 | C | ING-INF/05 | COMPUTER GRAPHICS | | 2 | 5,0 | 055633 | C | ING-INF/05 | COMPUTER SECURITY - UIC 587 | | 2 | 5,0 | 095898 | C | ING-INF/05 | COMPUTING INFRASTRUCTURES | | 2 | 5,0 | 085754 | C | ING-INF/04 | FONDAMENTI DI ROBOTICA | | 2 | 5,0 | 058140 | C | ING-INF/05 | HARDWARE ARCHITECTURES FOR EMBEDDED AND EDGE AI | | 2 | 5,0 | 097683 | C | ING-INF/05 | MACHINE LEARNING | | 2 | 5,0 |
Courses of the Group ELECTRONICS AND PHYSICS
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | 054654 | C | ING-INF/01 | ELECTRONIC SYSTEMS | | 1 | 10,0 | 098416 | C | GEO/11 | GEOPHYSICAL DATA PROCESSING 1 | | 1 | 5,0 | 085899 | C | ING-INF/07 | MISURE | | 1 | 5,0 | 055520 | C | ING-INF/04 ING-INF/07 | OPTICAL MEASUREMENTS | | 1 | 5,0 | 054092 | C | ING-INF/01 | SENSOR SYSTEMS | | 1 | 5,0[3,0 ] | 054083 | C | ING-INF/01 | DIGITAL ELECTRONIC SYSTEMS DESIGN | | 2 | 5,0[3,0 ] | 096032 | C | ING-INF/01 | ELECTRONICS | | 2 | 10,0 | 085888 | C | FIS/03 | FISICA DELLO STATO SOLIDO(a) | | 2 | 10,0 | 088711 | C | ING-INF/07 | FONDAMENTI DELLA MISURAZIONE | | 2 | 5,0 | 059072 | C | FIS/03 | LABORATORY OF PLASMA PHYSICS(b) | | 2 | 5,0 | 054076 | C | ING-INF/01 | MICROCONTROLLORI | | 2 | 5,0[3,0 ] | 088712 | C | ING-INF/01 | OPTOELETTRONICA | | 2 | 5,0 | 089473 | C | FIS/03 | SOLID STATE PHYSICS(c) | | 2 | 10,0 |
(a) Closed number subject (b) Closed number subject (c) Closed number subject
Courses of the Group MATHEMATICS
NOTES:
1 – Digital communication I (5cr) and Digital communication II (5cr) are incompatible with Digital communication (10cr).
2 – Audio signals (5cr) and Video signals (5cr) are incompatible with Audio and video signals (10cr).
3 – Geophysical imaging (5 cr) and Radar imaging (5 cr) are incompatible with Geophysical and radar imaging (10 cr)
4 - Optical Interconnects (5 cr) and Photonic Devices (10 cr) are incompatible.
5- Fisica dello Stato Solido (5cr) and Solid State Physics (5cr) are incompatible.
6- Misure (5cr) and Fondamenti della Misurazione (5cr) are incompatible.
7- Electronics (10cr) and Electronic Systems (10cr) are incompatible
Innovative teaching
The study programme in Telecommunications Engineering offer to students the opportunity to experience innovative learning methodologies according to plan set by Politecnico di Milano. In particular, all the courses of the list COMMUNICATIONS METHODOLOGIES and most of the courses in the list COMMUNICATIONS TECHNOLOGIES include topics ( at least 1 ECTS) taught in the flipped or blended classroom approaches or in co-supervision with industries and companies.
In addition, the study program in Telecommunication Engineering participate to the rich extra-curricular program of innovative learning named Passion in Action https://www.polimi.it/corsi/passion-in-action/
Pre-approved study plans
In order to facilitate the student in writing a curriculum consistent with the educational project, five pre-approved study plans are offered:
- DATA COMMUNICATIONS: goes deep into communication systems and techniques for information transfer over different communication media (optical communications, wireless communications, satellite communications);
- COMMUNICATION NETWORKS AND INTERNET: goes deep into the design and otimization of complex communication networks including the Internet, the Internet of Things, Mobile Cellular Networks and Optical networks.
- SIGNALS AND DATA ANALYSIS: goes deep into the techniques for analyzing data and signals including audio/video signals and telecommunications signals with applications also to remote sensing;
- MICROWAVES AND PHOTONICS: goes deep into the design and optimization of communication devices inclding photonic and radio-frequency devices;
- INTERNET ENGINEERING: goes deep into the Internet architecture and offered services; this study plan is co-programmed with the Master on Computer Science and Engineering.
Pre-approved study plans are automatically approved. Students have also the opportunity of filling in autonomous study plans which do not comply with the structure of pre-approved ones. Autonomous study plan may also contain courses which are not present in the Tables of this document (e.g., courses from other Master Programmes). Students who do not select a pre-approved study program are encouraged to contact the members of the study plan committee for advise before submitting the study plan through the web application. Contatcs of the Study Plans Committee members arre available at https://www.ccstlc.polimi.it.
1 Year courses - Track: Z2A - SIGNALS AND DATA ANALYSIS
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 062130 | B | ING-INF/03 | SIGNAL PROCESSING AND LEARNING | | 1 | 10,0[1,0 ] | 10,0 | | 054312 | B | ING-INF/03 | DIGITAL COMMUNICATION | | 1 | 10,0[2,0 ] | 10,0 | 052482 | B | ING-INF/03 | OPTICAL COMMUNICATIONS | | 1 | 10,0[1,0 ] | | -- | -- | -- | Courses to be chosen from Group MATHEMATICS | -- | -- | -- | 10,0 | -- | -- | -- | Courses to be chosen from Group COMPUTER SCIENCE | -- | -- | -- | -- | -- | -- | Courses to be chosen from Group ELECTRONICS AND PHYSICS | -- | -- | -- | | 054309 | B | ING-INF/03 | LOCALIZATION, NAVIGATION AND SMART MOBILITY | | 2 | 5,0[1,0 ] | 5,0 | | -- | -- | -- | Courses to be chosen from Group COMMUNICATIONS TECHNOLOGIES | -- | -- | -- | 15,0 | -- | -- | -- | Courses to be chosen from Group MATHEMATICS | -- | -- | -- | -- | -- | -- | Courses to be chosen from Group COMPUTER SCIENCE | -- | -- | -- | -- | -- | -- | Courses to be chosen from Group ELECTRONICS AND PHYSICS | -- | -- | -- | | -- | -- | -- | Courses to be chosen from Group MATHEMATICS | -- | -- | -- | 10,0 | -- | -- | -- | Courses to be chosen from Group COMPUTER SCIENCE | -- | -- | -- | -- | -- | -- | Courses to be chosen from Group ELECTRONICS AND PHYSICS | -- | -- | -- | | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 1 | 3,0 | 3,0(a) | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 2 | 3,0 |
(a) It is obligatory to include the LAB EXPERIENCE on in your study plan and it is strongly recommended to enter it in the 2nd or 3rd sem. of attendance (matriculated in September: 2nd sem. of the first year or 1st sem. of the second year; matriculated in February: 1st sem. of the second year or 2nd sem. of the second year); it is possible to enter it only once and it is NOT possible to enter it as supernumerary
2 Year courses - Track: Z2A - SIGNALS AND DATA ANALYSIS
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 054318 | B | ING-INF/03 | AUDIO AND VIDEO SIGNALS | | 1 | 10,0[1,0 ] | 10,0 | | 055556 | B | ING-INF/03 | GEOPHYSICAL AND RADAR IMAGING | | 1 | 10,0[1,0 ] | 10,0 | | 054322 | B | ING-INF/03 | INFORMATION THEORY | | 2 | 5,0[1,0 ] | 20,0 | 052481 | B,C | ING-INF/03 MAT/09 | NETWORK DESIGN | | 1 | 10,0[1,0 ] | 089043 | B | ING-INF/03 | MULTIMEDIA INTERNET | | 2 | 10,0 | 054330 | B,C | ING-INF/02 | WIRELESS AND MOBILE PROPAGATION | | 2 | 5,0[1,0 ] | 058725 | B,C | ING-INF/02 | EM WAVE PROPAGATION FOR SPACE-BORNE SYSTEMS | | 2 | 5,0 | -- | -- | -- | Courses to be chosen from Group MATHEMATICS | -- | -- | -- | -- | -- | -- | Courses to be chosen from Group COMPUTER SCIENCE | -- | -- | -- | -- | -- | -- | Courses to be chosen from Group ELECTRONICS AND PHYSICS | -- | -- | -- | | 056838 | -- | -- | FINAL EXAMINATION | -- | 1 | 17,0 | 20,0(a) | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 1 | 3,0 | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 2 | 3,0 |
(a) It is obligatory to include the LAB EXPERIENCE on in your study plan and it is strongly recommended to enter it in the 2nd or 3rd sem. of attendance (matriculated in September: 2nd sem. of the first year or 1st sem. of the second year; matriculated in February: 1st sem. of the second year or 2nd sem. of the second year); it is possible to enter it only once and it is NOT possible to enter it as supernumerary
1 Year courses - Track: Z2B - COMMUNICATION NETWORKS AND INTERNET
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 052482 | B | ING-INF/03 | OPTICAL COMMUNICATIONS | | 1 | 10,0[1,0 ] | 10,0 | | 054657 | B | ING-INF/03 | TRAFFIC THEORY | | 1 | 10,0[1,0 ] | 10,0 | | 088983 | C | MAT/09 | FOUNDATIONS OF OPERATIONS RESEARCH | | 1 | 5,0 | 5,0 | | 056834 | B | ING-INF/03 | NETWORK AUTOMATION | | 1 | 5,0[1,0 ] | 5,0 | | 089043 | B | ING-INF/03 | MULTIMEDIA INTERNET | | 2 | 10,0 | 10,0 | | 054328 | B | ING-INF/03 | WIRELESS NETWORKS | | 2 | 10,0[2,0 ] | 10,0 | | 054323 | B | ING-INF/03 | INTERNET OF THINGS | | 2 | 5,0[1,0 ] | 5,0 | | 054329 | B | ING-INF/03 | NETWORK SECURITY AND CRYPTOGRAPHY | | 2 | 5,0[1,0 ] | 5,0 | | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 1 | 3,0 | 3,0(a) | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 2 | 3,0 |
(a) It is obligatory to include the LAB EXPERIENCE on in your study plan and it is strongly recommended to enter it in the 2nd or 3rd sem. of attendance (matriculated in September: 2nd sem. of the first year or 1st sem. of the second year; matriculated in February: 1st sem. of the second year or 2nd sem. of the second year); it is possible to enter it only once and it is NOT possible to enter it as supernumerary
2 Year courses - Track: Z2B - COMMUNICATION NETWORKS AND INTERNET
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 054320 | B | ING-INF/03 | WIRELESS COMMUNICATIONS | | 1 | 10,0[1,0 ] | 10,0 | 054312 | B | ING-INF/03 | DIGITAL COMMUNICATION | | 1 | 10,0[2,0 ] | | 096120 | B | ING-INF/03 | COMMUNICATION NETWORK DESIGN | | 1 | 5,0 | 5,0 | | 093735 | C | MAT/09 | GRAPH OPTIMIZATION | | 2 | 5,0 | 5,0 | | 091041 | B | ING-INF/03 | AUDIO SIGNALS | | 1 | 5,0 | 5,0 | 054316 | B | ING-INF/03 | VIDEO SIGNALS | | 1 | 5,0[1,0 ] | 051178 | B | ING-INF/03 | OPTICAL AND TRANSPORT NETWORKS | | 1 | 5,0 | | -- | -- | -- | Courses to be chosen from Group MATHEMATICS | -- | -- | -- | 5,0 | | -- | -- | -- | Courses to be chosen from Group COMPUTER SCIENCE | -- | -- | -- | 5,0 | | 054330 | B,C | ING-INF/02 | WIRELESS AND MOBILE PROPAGATION | | 2 | 5,0[1,0 ] | 5,0 | 054309 | B | ING-INF/03 | LOCALIZATION, NAVIGATION AND SMART MOBILITY | | 2 | 5,0[1,0 ] | -- | -- | -- | Courses to be chosen from Group COMPUTER SCIENCE | -- | -- | -- | 056837 | B | ING-INF/03 | NETWORK MEASUREMENT AND DATA ANALYSIS LAB | | 2 | 5,0 | | 056838 | -- | -- | FINAL EXAMINATION | -- | 1 | 17,0 | 20,0(a) | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 1 | 3,0 | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 2 | 3,0 |
(a) It is obligatory to include the LAB EXPERIENCE on in your study plan and it is strongly recommended to enter it in the 2nd or 3rd sem. of attendance (matriculated in September: 2nd sem. of the first year or 1st sem. of the second year; matriculated in February: 1st sem. of the second year or 2nd sem. of the second year); it is possible to enter it only once and it is NOT possible to enter it as supernumerary
1 Year courses - Track: Z2C - DATA COMMUNICATIONS
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 052482 | B | ING-INF/03 | OPTICAL COMMUNICATIONS | | 1 | 10,0[1,0 ] | 10,0 | | 054312 | B | ING-INF/03 | DIGITAL COMMUNICATION | | 1 | 10,0[2,0 ] | 10,0 | | 052481 | B,C | ING-INF/03 MAT/09 | NETWORK DESIGN | | 1 | 10,0[1,0 ] | 10,0 | | 054322 | B | ING-INF/03 | INFORMATION THEORY | | 2 | 5,0[1,0 ] | 5,0 | | 054329 | B | ING-INF/03 | NETWORK SECURITY AND CRYPTOGRAPHY | | 2 | 5,0[1,0 ] | 5,0 | | 054328 | B | ING-INF/03 | WIRELESS NETWORKS | | 2 | 10,0[2,0 ] | 10,0 | | 089043 | B | ING-INF/03 | MULTIMEDIA INTERNET | | 2 | 10,0 | 10,0 | | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 1 | 3,0 | 3,0(a) | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 2 | 3,0 |
(a) It is obligatory to include the LAB EXPERIENCE on in your study plan and it is strongly recommended to enter it in the 2nd or 3rd sem. of attendance (matriculated in September: 2nd sem. of the first year or 1st sem. of the second year; matriculated in February: 1st sem. of the second year or 2nd sem. of the second year); it is possible to enter it only once and it is NOT possible to enter it as supernumerary
2 Year courses - Track: Z2C - DATA COMMUNICATIONS
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 054320 | B | ING-INF/03 | WIRELESS COMMUNICATIONS | | 1 | 10,0[1,0 ] | 10,0 | | 052484 | B,C | ING-INF/02 | RF SYSTEMS | | 1 | 10,0[1,0 ] | 10,0 | 062130 | B | ING-INF/03 | SIGNAL PROCESSING AND LEARNING | | 1 | 10,0[1,0 ] | 096115 | B,C | ING-INF/02 | PHOTONIC DEVICES | | 2 | 10,0 | | -- | -- | -- | Courses to be chosen from Group MATHEMATICS | -- | -- | -- | 15,0 | -- | -- | -- | Courses to be chosen from Group ELECTRONICS AND PHYSICS | -- | -- | -- | 052470 | B | ING-INF/03 | QUANTUM COMMUNICATIONS | | 2 | 5,0 | | 057886 | B | ING-INF/03 | CLASSICAL AND QUANTUM ERROR CORRECTION | | 2 | 5,0 | 5,0 | -- | -- | -- | Courses to be chosen from Group COMMUNICATIONS TECHNOLOGIES | -- | -- | -- | | 056838 | -- | -- | FINAL EXAMINATION | -- | 1 | 17,0 | 20,0(a) | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 1 | 3,0 | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 2 | 3,0 |
(a) It is obligatory to include the LAB EXPERIENCE on in your study plan and it is strongly recommended to enter it in the 2nd or 3rd sem. of attendance (matriculated in September: 2nd sem. of the first year or 1st sem. of the second year; matriculated in February: 1st sem. of the second year or 2nd sem. of the second year); it is possible to enter it only once and it is NOT possible to enter it as supernumerary
1 Year courses - Track: Z2D - INTERNET ENGINEERING
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 054657 | B | ING-INF/03 | TRAFFIC THEORY | | 1 | 10,0[1,0 ] | 10,0 | | 088983 | C | MAT/09 | FOUNDATIONS OF OPERATIONS RESEARCH | | 1 | 5,0 | 5,0 | | 089183 | C | ING-INF/05 | DATA BASES 2 | | 1 | 5,0 | 5,0 | | 054443 | C | ING-INF/05 | SOFTWARE ENGINEERING 2 | | 1 | 5,0[2,0 ] | 5,0 | | 056834 | B | ING-INF/03 | NETWORK AUTOMATION | | 1 | 5,0[1,0 ] | 5,0 | | 089043 | B | ING-INF/03 | MULTIMEDIA INTERNET | | 2 | 10,0 | 10,0 | | 054328 | B | ING-INF/03 | WIRELESS NETWORKS | | 2 | 10,0[2,0 ] | 10,0 | | 054323 | B | ING-INF/03 | INTERNET OF THINGS | | 2 | 5,0[1,0 ] | 5,0 | | 054329 | B | ING-INF/03 | NETWORK SECURITY AND CRYPTOGRAPHY | | 2 | 5,0[1,0 ] | 5,0 | | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 1 | 3,0 | 3,0(a) | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 2 | 3,0 |
(a) It is obligatory to include the LAB EXPERIENCE on in your study plan and it is strongly recommended to enter it in the 2nd or 3rd sem. of attendance (matriculated in September: 2nd sem. of the first year or 1st sem. of the second year; matriculated in February: 1st sem. of the second year or 2nd sem. of the second year); it is possible to enter it only once and it is NOT possible to enter it as supernumerary
2 Year courses - Track: Z2D - INTERNET ENGINEERING
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 096120 | B | ING-INF/03 | COMMUNICATION NETWORK DESIGN | | 1 | 5,0 | 5,0 | | 093735 | C | MAT/09 | GRAPH OPTIMIZATION | | 2 | 5,0 | 5,0 | | 054318 | B | ING-INF/03 | AUDIO AND VIDEO SIGNALS | | 1 | 10,0[1,0 ] | 30,0 | 061723 | C | ING-INF/05 | NETWORKED SOFTWARE FOR DISTRIBUTED SYSTEMS | | 1 | 5,0[5,0 ] | 051178 | B | ING-INF/03 | OPTICAL AND TRANSPORT NETWORKS | | 1 | 5,0 | 090950 | C | ING-INF/05 | DISTRIBUTED SYSTEMS | | 1 | 5,0 | 093212 | C | ING-INF/05 | DESIGN AND IMPLEMENTATION OF MOBILE APPLICATIONS | | 1 | 5,0 | 089185 | C | ING-INF/05 | HIGH PERFORMANCE PROCESSORS AND SYSTEMS (UIC 569) | | 2 | 5,0 | 091023 | C | ING-INF/05 | BUSINESS INFORMATION SYSTEMS 1 | | 2 | 5,0 | 088949 | C | ING-INF/05 | ADVANCED COMPUTER ARCHITECTURES | | 2 | 5,0 | 056892 | C | ING-INF/05 | DATA MINING | | 1 | 5,0 | 054309 | B | ING-INF/03 | LOCALIZATION, NAVIGATION AND SMART MOBILITY | | 2 | 5,0[1,0 ] | | 056838 | -- | -- | FINAL EXAMINATION | -- | 1 | 17,0 | 20,0(a) | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 1 | 3,0 | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 2 | 3,0 |
(a) It is obligatory to include the LAB EXPERIENCE on in your study plan and it is strongly recommended to enter it in the 2nd or 3rd sem. of attendance (matriculated in September: 2nd sem. of the first year or 1st sem. of the second year; matriculated in February: 1st sem. of the second year or 2nd sem. of the second year); it is possible to enter it only once and it is NOT possible to enter it as supernumerary
1 Year courses - Track: Z2E - MICROWAVES AND PHOTONICS
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 052484 | B,C | ING-INF/02 | RF SYSTEMS | | 1 | 10,0[1,0 ] | 10,0 | | 052482 | B | ING-INF/03 | OPTICAL COMMUNICATIONS | | 1 | 10,0[1,0 ] | 10,0 | | -- | -- | -- | Courses to be chosen from Group COMPUTER SCIENCE | -- | -- | -- | 10,0 | -- | -- | -- | Courses to be chosen from Group MATHEMATICS | -- | -- | -- | -- | -- | -- | Courses to be chosen from Group ELECTRONICS AND PHYSICS | -- | -- | -- | | 096115 | B,C | ING-INF/02 | PHOTONIC DEVICES | | 2 | 10,0 | 10,0 | | -- | -- | -- | Courses to be chosen from Group COMMUNICATIONS TECHNOLOGIES | -- | -- | -- | 10,0 | -- | -- | -- | Courses to be chosen from Group ELECTRONICS AND PHYSICS | -- | -- | -- | | 054321 | B,C | ING-INF/02 | ANTENNAS | | 2 | 5,0[1,0 ] | 5,0 | | -- | -- | -- | Courses to be chosen from Group COMPUTER SCIENCE | -- | -- | -- | 5,0 | -- | -- | -- | Courses to be chosen from Group MATHEMATICS | -- | -- | -- | -- | -- | -- | Courses to be chosen from Group ELECTRONICS AND PHYSICS | -- | -- | -- | | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 1 | 3,0 | 3,0(a) | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 2 | 3,0 |
(a) It is obligatory to include the LAB EXPERIENCE on in your study plan and it is strongly recommended to enter it in the 2nd or 3rd sem. of attendance (matriculated in September: 2nd sem. of the first year or 1st sem. of the second year; matriculated in February: 1st sem. of the second year or 2nd sem. of the second year); it is possible to enter it only once and it is NOT possible to enter it as supernumerary
2 Year courses - Track: Z2E - MICROWAVES AND PHOTONICS
Code | Educational activities | SSD | Course Title | Language | Sem | CFU | CFU Group | 052481 | B,C | ING-INF/03 MAT/09 | NETWORK DESIGN | | 1 | 10,0[1,0 ] | 10,0 | 062130 | B | ING-INF/03 | SIGNAL PROCESSING AND LEARNING | | 1 | 10,0[1,0 ] | | 054320 | B | ING-INF/03 | WIRELESS COMMUNICATIONS | | 1 | 10,0[1,0 ] | 10,0 | 054312 | B | ING-INF/03 | DIGITAL COMMUNICATION | | 1 | 10,0[2,0 ] | | -- | -- | -- | Courses to be chosen from Group COMPUTER SCIENCE | -- | -- | -- | 10,0 | -- | -- | -- | Courses to be chosen from Group MATHEMATICS | -- | -- | -- | -- | -- | -- | Courses to be chosen from Group COMMUNICATIONS TECHNOLOGIES | -- | -- | -- | -- | -- | -- | Courses to be chosen from Group ELECTRONICS AND PHYSICS | -- | -- | -- | | 094791 | B,C | ING-INF/02 | MICROWAVE ENGINEERING | | 2 | 5,0 | 5,0 | | 058725 | B,C | ING-INF/02 | EM WAVE PROPAGATION FOR SPACE-BORNE SYSTEMS | | 2 | 5,0 | 5,0 | | 056838 | -- | -- | FINAL EXAMINATION | -- | 1 | 17,0 | 20,0(a) | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 1 | 3,0 | 056851 | B,C | ING-INF/02 ING-INF/03 ING-INF/05 | LAB EXPERIENCE | | 2 | 3,0 |
(a) It is obligatory to include the LAB EXPERIENCE on in your study plan and it is strongly recommended to enter it in the 2nd or 3rd sem. of attendance (matriculated in September: 2nd sem. of the first year or 1st sem. of the second year; matriculated in February: 1st sem. of the second year or 2nd sem. of the second year); it is possible to enter it only once and it is NOT possible to enter it as supernumerary
Autonomous Study Plans
Students have the opportunity of filling in autonomous study plans which do not comply with the structure of pre-approved ones. Autonomous study plan may also contain courses which are not present in the Tables of this document (e.g., courses from other Master Programmes).
Students who do not select a pre-approved study program are encouraged to contact the members of the study plan committee for advise before submitting the study plan through the web application. Contatcs of the Study Plans Committee members arre available at Ingegneria delle Telecomunicazioni – Ingegneria Industriale e dell'Informazione (polimi.it)
POLIMI Ambassador in Smart Infrastructures
Politecnico di Milano aims at strengthening the skills related to Smart Infrastructures in the Master of Science degree programmes.
The goal is to create a new professional profile, the Ambassador in Smart Infrastructures: a MSc graduate with forefront systemic skills, interdisciplinary vision, digital skills, specific aptitude to innovation. The Ambassador in Smart Infrastructures profile corresponds to a professional figure with both advanced, specialized skills in relevant applications (infrastructures) and/or enabling technologies (smart), as well as transversal skills, which allow students to broaden their knowledge in the field of Smart Infrastructures and to adopt a systemic approach to design, management, innovation, and study of life-cycle of infrastructures.
The training programme is articulated within the MSc educational path, and sets at 130 credits (thus at least extra 10 credits in addition to the standard MSc requirements) the minimum number of credits needed to complete the selected MSc and, at the same time, to qualify for the certification of Ambassador in Smart Infrastructures. As part of the educational training, students must acquire at least 30 credits in courses related to the Ambassador in Smart Infrastructures profile, which have to be chosen as follows: at least 10 ECTS from the following Table A and at least 20 ECTS from the following Table B.
To obtain recognition of a course for the Ambassador qualification, at least one of the following conditions must be met:
- The course selected from Table A or B must be listed in the Manifesto of the Academic Year of application.
- The course selected from Table A or B must be present in the tables for the same Academic Year of attendance (i.e., in the study plan for the course). However, it is not necessary for the course to be taken in that Academic Year.
Track: * - Table A
Code |
Course Title |
CFU |
Language |
Programme |
Track |
Semester(s) |
Campus |
052481 |
NETWORK DESIGN |
10,0 |
EN |
Any programme |
Any Track |
1 |
MI |
052482 |
OPTICAL COMMUNICATIONS |
10,0 |
EN |
Any programme |
Any Track |
1 |
MI |
052484 |
RF SYSTEMS |
10,0 |
EN |
Any programme |
Any Track |
1 |
MI |
054312 |
DIGITAL COMMUNICATION |
10,0 |
EN |
Any programme |
Any Track |
1 |
MI |
054657 |
TRAFFIC THEORY |
10,0 |
EN |
Any programme |
Any Track |
1 |
MI |
062130 |
SIGNAL PROCESSING AND LEARNING |
10,0 |
EN |
Any programme |
Any Track |
1 |
MI |
Track: * - Table B
Code |
Course Title |
CFU |
Language |
Programme |
Track |
Semester(s) |
Campus |
052369 |
NETWORKED CONTROL |
5,0 |
EN |
Any programme |
Any Track |
1 |
MI |
052590 |
SENSORS, MEASUREMENTS AND SMART METERING |
10,0 |
EN |
Any programme |
Any Track |
2 |
MI |
054092 |
SENSOR SYSTEMS |
5,0 |
EN |
Any programme |
Any Track |
1 |
MI |
054165 |
ELECTROMAGNETIC COMPATIBILITY B |
10,0 |
EN |
Any programme |
Any Track |
2 |
MI |
054571 |
SMART CITIES AND URBAN INNOVATION |
8,0 |
EN |
Any programme |
Any Track |
2 |
MI |
056490 |
DATA AND INFORMATION QUALITY |
5,0 |
EN |
Any programme |
Any Track |
1 |
MI |
056901 |
SYSTEMS AND METHODS FOR BIG AND UNSTRUCTURED DATA |
5,0 |
EN |
Any programme |
Any Track |
1 |
MI |
057492 |
SMART HOSPITAL |
5,0 |
EN |
Any programme |
Any Track |
2 |
MI |
057498 |
DATA ANALYTICS FOR SMART AGRICULTURE |
5,0 |
EN |
Any programme |
Any Track |
1 |
MI |
057517 |
COMMUNICATION IN GREEN INFRASTRUCTURES |
5,0 |
EN |
Any programme |
Any Track |
1 |
MI |
057542 |
SMART MATERIALS AND METAMATERIALS |
5,0 |
EN |
Any programme |
Any Track |
1 |
MI |
089013 |
ROBOTICS |
5,0 |
EN |
Any programme |
Any Track |
2 |
MI |
095898 |
COMPUTING INFRASTRUCTURES |
5,0 |
EN |
Any programme |
Any Track |
2 |
MI |
097465 |
GEOPHYSICAL DATA PROCESSING |
10,0 |
EN |
Any programme |
Any Track |
1 |
MI |
097484 |
SIMULATION TECHNIQUES AND TOOLS |
5,0 |
EN |
Any programme |
Any Track |
2 |
MI |
097678 |
DATA ACQUISITION SYSTEMS |
5,0 |
EN |
Any programme |
Any Track |
1 |
MI |
097683 |
MACHINE LEARNING |
5,0 |
EN |
Any programme |
Any Track |
2 |
MI |
099234 |
NEW SENSORS AND MEASUREMENT SYSTEMS FOR CIVIL ENGINEERING |
6,0 |
EN |
Any programme |
Any Track |
1, 2 |
MI |
The Ambassador in Smart Infrastructures certification will be reported in the Student’s Diploma Supplement and and an electronic badge will be issued by Politecnico di Milano. Students who will not obtain the required extra 10 credits and the 30 credits in training activities functional to the Ambassador in Smart Infrastructures profile will not be precluded from obtaining a MSc degree.7.4 Foreign languageAn adequate knowledge of the English language is mandatory according to the rules indicated in the web site of Politecnico di Milano. The Master of Science programme in Telecommunication Engineering requires the minimum level indicated in the rules. 7.5 Degree examinationThe thesis is worth 17 credits. Its definition and evaluation follow the general criteria established by the School. The thesis can be written in Italian or in English. In any case an extended abstract in the other language must be included.
The general rules for the final exam and the specific rules of the study program are available on the web site of the School of Industrial and Information Engineering:
School: Esami di Laurea e Laurea Magistrale (polimi.it)
8. Academic calendar
9. FacultyThe list of the academic staff will be made available by the University offices at the beginning of each academic year. The names of professors for each Course, together with their subject, will be available on the degree program starting from the month of September. The degree program is annually published on the website of Politecnico di Milano.
10. Infrastructures and laboratoriesTelecommunication Engineering students will have access to all of the Politecnico di Milano facilities (computer-equipped rooms, libraries, studios, canteens, sports facilities). Various courses foresee laboratory activities that will be carried out in computer-equipped rooms or experimental laboratories. Further information concerning this topic is available on the degree program. The degree program is annually published on the website of Politecnico di Milano.
11. International contextThe Master of Science in Telecommunication Engineering has a high percentage of foreign students (more than 35%) and offers the opportunity to live a study experience in a dynamic and international environment with people of different cultures.
Research in the Politecnico di Milano proceeds alongside the extensive network of cooperative relationships and connections with other Italian and foreign universities, with public and private research centres and with the industrial system. The quality and effect of research carried out at the Politecnico have been confirmed in recent years by the increase in connections with the international scientific community. Testimony to this is the large number of research projects and programs that have recently been undertaken with the best European and worldwide universities, from North America toSouth-East Asia. In 2007, the university departments submitted their research activities to an international assessment process (peer review). In order to ensure impartiality of the assessment, the coordinators of the assessment panels have been chosen by the Chancellors from European technical universities (for the most part chosen amongst those that are higher than the Politecnico in international rankings), and in turn, the coordinators chosen have decided the composition of their groups. In total, the process has seen participation by 81 experts (not one Italian) from 52 universities and international research centres. The university obtained a total score of 3 (good at International level) on a scale of 1 to 4 (excellent). Out of the 1270 professors involved in the peer review process, 39% were valued “excellent at International level” and 21% were valued “good at International level”.
Most of the research groups concerning the Telecommunications Engineering Bachelor of Science were rated "excellent at international level".
12. InternationalizationStudents on the Telecommunications Engineering program can access international study programs, based on the agreements held with numerous foreign institutions. Every year various students, both Italian and foreign, take part in international exchanges. Students chosen for a specific program can enrich their profiles by studying abroad and earning credits that are fully acknowledged by the Politecnico di Milano.
There are multiple opportunities on offer. Amongst them are the following:
- study periods abroad with the Erasmus program, or other non-EU special programs;
- double degree programs (foreseeing awarding of a double master of science over a 3 year period, of which two are spent in a partner institution abroad);
- traineeship in companies or foreign university laboratories;
- writing the final thesis abroad.
Information on exchange programs, double degree projects and international internships, European research and international relations projects are available on the degree program. The degree program is annually published on the website of Politecnico di Milano.
IMPORTANT NOTE: The maximum number of credits that can be acquired with the Erasmus program for students of the Master Program in Telecommunication Engineering at Politecnico di Milano is 30 credits (corresponding to one semester).
13. Quantitative dataThe Evaluation Nucleus perform periodic analysis on the overall results analysing the teaching activities and the integration of graduates into the work world. Reports and studies are available on the website of the Politecnico di MIlano.
14. Further informationFurther information on the Telecommunications Engineering program at the Politecnico di Milano can be found on the website:
Ingegneria delle Telecomunicazioni – Ingegneria Industriale e dell'Informazione (polimi.it)
indicating all the e-mail addresses to which it is possible to write and ask questions related to specific topics.
15. Errata corrige
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