Wireless Multimedia Networks

Објавено: July 3, 2023
1. Course Title Wireless Multimedia Networks
2. Code 4ФЕИТ10001
3. Study program 11-IBS, 12-KIT, 20-IMSA
4. Organizer of the study program (unit, institute, department) Faculty of Electrical Engineering and Information Technologies
5. Degree (first, second, third cycle) Second cycle
6. Academic year/semester I/1   7.    Number of ECTS credits 6.00
8. Lecturer Dr Toni Janevski
9. Course Prerequisites
10. Course Goals (acquired competencies):

After completing the course, the student is expected to be able to apply a deeper technical analysis of wireless multimedia networks (WiFi, 5G, future 6G). It is expected that he knows how to create wireless multimedia networks, to create protocols, services and applications for wireless multimedia networks, as well as to be able to engage in scientific and research work in the field of wireless multimedia networks.
11. Course Syllabus:

Mobile multimedia network architectures, network slicing using Software Defined Networks (SDN) and Network Virtualization (NFV). Macro-mobility (Mobile IPv6). HTTP 3 and QUIC protocols in mobile and wireless networks. Service-based architectures (SBA) in 5G and future mobile networks. Real-time services over wireless multimedia networks: video/audio streaming, TV over b network, video conferencing. VoIP (Voice over IP) services over mobile networks (Voie over LTE – VoLTE, Voice over NR – VoNR), OTT voice services over wireless and mobile networks (WiFi, 4G, 5G, future 6G). Mobile TV services through wireless multimedia networks. Fixed wireless access via 5G-Advanced and future 6G mobile networks). Performance of mobile multimedia networks (QoS – Quality of Service). KPI (Key Performance Indicators) in wireless multimedia networks. Signaling network architectures (IMS – IP Multimedia Subsystem), security in wireless multimedia networks.
12. Learning methods:

Lectures; independent study and presentation of papers from journals and conference proceedings; independent study and presentation of practical examples from the field; interactive discussions.
13. Total number of course hours 180
14. Distribution of course hours 3 + 3
15. Forms of teaching 15.1 Lectures-theoretical teaching 45 hours
15.2 Exercises (laboratory, practice classes), seminars, teamwork 45 hours
16. Other course activities 16.1 Projects, seminar papers 30 hours
16.2 Individual tasks 30 hours
16.3 Homework and self-learning 30 hours
17. Grading
17.1 Exams 0 points
17.2 Seminar work/project (presentation: written and oral) 50 points
17.3. Activity and participation 0 points
17.4. Final exam 50 points
18. Grading criteria (points) up to 50 points 5 (five) (F)
from 51 to 60 points 6 (six) (E)
from 61 to 70 points 7 (seven) (D)
from 71 to 80 points 8 (eight) (C)
from 81 to 90 points 9 (nine) (B)
from 91 to 100 points 10 (ten) (A)
19. Conditions for acquiring teacher’s signature and for taking final exam None
20. Forms of assessment It is done by taking an exam or two colloquiums (50% of the grade) and making a thesis-seminar work (50% of the grade).
21. Language Macedonian and English
22. Method of monitoring of teaching quality Self-evaluation
23. Literature
23.1.       Required Literature
No. Author Title Publisher Year
1. Toni Janevski QoS for Fixed and Mobile Ultra-Broadband Wiley (Wiley-IEEE series) 2019
2. Toni Janevski Internet Technologies for Fixed and Mobile Networks Artech House, USA 2015
3. Toni Janevski Traffic Analysis and Design of Wireless IP Networks Artech House, USA 2003