Module

PDF-Export
General information
Moderne Mobilkommunikationssysteme
Modern Mobile Communication Systems
MK117
Prof. Dr. Jetzek, Ulrich (ulrich.jetzek@haw-kiel.de)
Prof. Dr. Jetzek, Ulrich (ulrich.jetzek@haw-kiel.de)
Rohrandt, Christian (christian.rohrandt@haw-kiel.de)
Wintersemester 2019/20
1 Semester
In der Regel im Wintersemester
Deutsch
Curricular relevance (according to examination regulations)
Study Subject Study Specialization Study Focus Module type Semester
M.Sc. - MIE - Information Engineering (PO 2022, V3) Information Technology and Systems Wahlmodul
M.Eng. - MET - Elektrische Technologien (PO 2017, V3) Kommunikationstechnik und Embedded Systems Wahlmodul
M.Sc. - MIE - Information Engineering (PO 2022, V3) Intelligent Systems Wahlmodul
M.Sc. - MIE - Information Engineering (PO 2022, V3) Business IT-Management Wahlmodul
M.Sc. - MIE - Information Engineering (PO 2022, V3) IT Security Wahlmodul
Qualification outcome
Areas of Competence: Knowledge and Understanding; Use, application and generation of knowledge; Communication and cooperation; Scientific self-understanding / professionalism.
Students have understood the concepts and essential characteristics of 5G Technology. They are capable of characterizing the 5G System Architecture, Radio Interface, Access Procedures (Layer 2 and 3) and the Physical Layer (Layer 1).
The laboratory of this module is organized as seminar work, where small student groups of two or three students will prepare and present a specific 5G Topic to the entire class. Topics will be handed out at the beginning of the semester, such that each team has sufficient time for preparing its presentation. In Addition to the presentation each time shall prepare a handout (a few pages) for the class summarizing the most important Facts of their Topic.
The Students perform a lab project in small teams. Therefore the students know how to manage a Project, organize the Project into workpackages, define responsibilities and are capable of presenting their Project results.The students have the capability of applying their knowledge to development projects in mobile communication.
Content information
Lecture will closely follow the Content of reference 1 (book of Dahlman, Parkvall, Sköld on 5G). In order to have a direct reference for the individual chapter numbers, chapter numbers given here correspond 1:1 as given in reference 1. However, chapter numbers given in brackets will not be part of the lecture.

1. What is 5G?
2. 5G Standardization
3. Spectrum for 5G
(4. LTE - An Overview)
5. NR (Next Radio) Overview
6. Radio-Interface Architecture
7. Overall Transmission Structure
8. Channel Sounding
9. Transport-Channel Processing
10. Physical-Layer Control Signalling
(11. Multi-Antenna Transmission)
(12. Beam Management)
13. Retransmission Protocols
14. Scheduling
15. Uplink Power and Timing Control
16. Initial Access
(17. LTE/NR Interworking and Coexistence)
18. RF Characteristics
19. RF Technologies at mm-Wave Frequencies
20. Beyond the first Release of 5G
1. Erik Dahlman, Stefan Parkvall, Johan Sköld: "5G NR - The Next Generation Wireless Access Technology", Academic Press, 2018, ISBN: 978-0-12-814323-0
2. 5G-Standard: https://www.3gpp.org/DynaReport/38-series.htm, 3GPP (3rd Generation Partnership Project)
3. John G. Proakis : “Digital Communications”, McGraw-Hill International Editions, 3rd edition, 1995, ISBN: 0-07-113814-5
Teaching formats of the courses
Teaching format SWS
Labor 2
Lehrvortrag 2
Workload
4 SWS
5,0 Credits
48 Hours
102 Hours
Module Examination
Method of Examination Duration Weighting wird angerechnet gem. § 11 Absatz 2 PVO Graded Remark
Klausur 90 Minutes 50 %
Präsentation 15 Minutes 15 %
Bericht 35 %
PDF-Export