Subject description - BE2M32MKSA

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BE2M32MKSA Mobile Networks Extent of teaching:2P + 2L
Guarantors:Bečvář Z. Roles:PV,P Language of
teaching:
EN
Teachers:Bečvář Z., Mach P. Completion:Z,ZK
Responsible Department:13132 Credits:6 Semester:Z

Anotation:

The lectures introduce principles and functionalities of mobile networks with special focus on currently deployed technologies and future mobile networks. Furthermore, architecture and fundamental principles of GSM, UMTS, LTE and LTE-A will be explained. Then, selected key technologies for future mobile networks (e.g., 5G) will be explained.

Study targets:

The students learn principles of different generations of mobile networks and they will be able to solve problems related to network planning and operation.

Course outlines:

1. Introduction, evolution of mobile networks, standardization
2. Architecture of GSM - data transmission in GSM (HSCSD, GPRS, EDGE)
3. Architecture of UMTS - services, applications, radio interfaces, signaling
4. Control and management of UMTS - radio link control, radio access
5. Data transmission in UMTS - HSPA
6. Architecture of LTE-A - interfaces, services, applications
7. Radio interface in LTE-A - frequency bands, medium access, frame, signaling
8. Control and management in LTE-A - control and management layers, medium access
9. Control and management in LTE-A - Radio resource control and allocation
10. Heterogeneous networks - multi-tier networks, ultra dense networks - problems and solutions
11. Self-organizing networks - coverage optimization, mobility robustness, spectrum sharing, cognitive radio
12. Advanced techniques for future mobile networks - D2D communication, machine type communication (MTC)
13. Advanced techniques for future mobile networks - cooperative communication, duplex methods, multiple access, frequency bands
14. Evolution of mobile networks towards 5G - satellite communications, software defined networking (SDN), Network Function Virtualization (NFV), centralization/distribution of radio access network features

Exercises outline:

1. Introduction, schedule, requirements
2. Introduction to MATLAB, implementation of scenario
3. Users' mobility modelling
4. Signal propagation, interference
5. Mobility management, handover decision
6. Channel error modelling, data transmission
7. Physical layer - modulation and coding, frame structure
8. LAB 1 - Data transmission in mobile network
9. LAB 1 - Data transmission in mobile network
10. LAB 2 - Energy consumption in mobile network
11. LAB 2 - Energy consumption in mobile network
12. LAB 3 - Scheduling in mobile network
13. LAB 3 - Scheduling in mobile network
14. Defense of the semestral project, Credits

Literature:

[1] M. Sauter, "From GSM to LTE-Advanced: An Introduction to Mobile Networks and Mobile Broadband," Revised Second Edition. Wiley. 2014.
[2] G. de la Roche, "A. A. Glazunov, B. Allen, "LTE-Advanced and Next Generation Wireless Networks," Wiley, 2013.
[3] J. Rodriquez, "Fundamentals of 5G Mobile Networks," Wiley, 2015."

Requirements:

Students must have fundamental knowledge of modulations, coding techniques and multiple access methods for wireless networks. Furthermore, they must understand to components of a communication chain, signal propagation and radio channel characteristics (attenuation, gain, interference, noise) and characteristics of spectrum and signals (mean value, energy, power, correlation, etc.). They also should have fundamental knowledge of individual layers of RM-OSI model.

Keywords:

Mobile networks, GSM, UMTS, LTE, 5G, data transmission, architecture

Subject is included into these academic programs:

Program Branch Role Recommended semester
MEEK6_2018 Mobil Communications P 1
MEEK5_2018 Communication Systems and Networks P 3
MEEK7_2018 Radio Systems PV 3
MEEK4_2018 Technology of the Internet of Things P 1


Page updated 6.12.2019 17:52:32, semester: Z,L/2020-1, L/2018-9, Z,L/2019-20, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)