| Course code |
02 44 6115 01 |
| ECTS credits |
4 |
| Course name in language of instruction |
Telecommunication Network Design |
| Course name in Polish |
Telecommunication Network Design |
| Course name in English |
Telecommunication Network Design |
| Language of instruction |
English |
Type of classes
Teaching hours per semester |
|
Lecture |
Tutorials |
Laboratory |
Project |
Seminar |
Other |
E-learn. |
| Contact hours |
10 |
|
30 |
|
|
20 |
|
| Distance learning |
No |
No |
No |
No |
No |
No |
No |
| Weighted grades |
0.50 |
|
0.50 |
|
|
0 |
|
|
| Unit running the course |
Instytut Elektroniki |
| Course coordinator |
dr inż. Piotr Korbel |
| Course instructors |
dr inż. Jarosław Kawecki, dr inż. Piotr Korbel |
| Prerequisites |
Fundamentals of telecommunication and computer networks, fundamentals of probability and statistics, programming in any object software (C++, Java, Matlab) |
| Course learning outcomes |
- EK1 Student is able to formulate design criteria of telecommunication and computer networks
- EK2 Student is able to solve the problem of network dimensioning
- EK3 Student is able to propose node devices and their technologies
- EK4 Student is able to simulate telecommuniation and computer networks
|
| Assessment methods |
EK1 - written test EK2 - written test, laboratory report, case study EK3 - laboratory report, case study, discussion EK4 - laboratory report, case study, discussion
|
| Programme learning outcomes |
- In-depth knowledge and comprehension of complex concepts and phenomena in the field of electronics and telecommunications, methods and theories explaining the dependences between them, as well as main development trends in electronics and telecommunications; knowledge of the fundamentals of life cycle of electronic and telecommunication devices and systems.
- Ability to apply the knowledge to identify, formulate and solve non-typical problems related to electronics and telecommunications, to plan and to conduct adequate experiments, including measurements and numerical simulations also with the aid of self-developed methods and tools, to analyse and to interpret obtained results so as to draw conclusions.
- Ability to apply the engineering knowledge to design according to specific needs, and to critically analyse and to judge operation of electronic and telecommunication devices and systems, with consideration of non-technical factors; ability to formulate and to test hypotheses related to simple research problems in electronics and telecommunications.
- Ability to use literature, data bases and other sources of information. Ability to acquire and apply new knowledge as needed, using appropriate learning strategies and to direct others in this area.
|
| Grading policies |
Lecture - one written test (50 % of the final grade) Laboratory - evaluation and presentation of the laboratory project and case study report (50 % of the final grade) |
| Course content |
LECTURE Modeling of selected types of networks and network technologies. Methods for determining the traffic demand matrix. Traffic management, dimensioning of links, dimensioning of nodes. Graph network models. Basic models of dimensioning of access and backbone networks. Network optimization methods. Basic mechanisms of securing network resources against failures. Multilayer model of network resources. Models of Internet traffic. Modeling and dimensioning of radio inteface of cellular networks. LABORATORY Implementation of solutios for selected problems (e.g. network traffic data analysis, network modelling and dimensioning). Case study related to selected network modelling and analysis problems. OTHER case study consultation, access to laboratories and technical infrastructure, test. |
| Basic reference materials |
- Maciej Stasiak, Mariusz Głąbowski, Arkadiusz Wiśniewski, Piotr Zwierzykowski, Modeling and Dimensioning of Mobile Networks, Wiley, 2011
- Notaki do wykładu (Lecture notes)
- Ajay R. Mishra. Fundamentals of Network Planning and Optimisation 2G/3G/4G : Evolution To 5G. John Wiley & Sons, 2018
|
| Other reference materials |
- Wybrane artykuły z bazy IEEEXplore (Selected paper from IEEEXplore database)
|
Course workload
|
| Type of classes |
Teaching hours |
| Lecture |
10 |
| Laboratory |
30 |
| Other |
20 |
| Student`s own work |
40 |
| SUM : |
100 |
|
| Comments |
|
| Updated on |
2024-09-16 21:30:25 |