Course detail
Mobile Network Communication Systems
FEKT-MKPMAcad. year: 2017/2018
Protocol architecture of mobile networks, transport and switching systems for mobile networks, differences from analog telecommunication systems, control protocols and signalling in mobile networks, maintenance over mobile networks. GSM networks, architecture, connection control, communication protocols between GSM registers, Data transmission in mobile networks, new technologies - HSCSD and GPRS. Transmission capacity increased by implementation of EDGE system. Cooperation between mobile networks and the other ones. Mobile networks and the Internet. Third-generation mobile networks - IMT-2000/UMTS. LTE technology - architectures of access and core networks.
Language of instruction
Number of ECTS credits
Mode of study
Guarantor
Department
Learning outcomes of the course unit
Prerequisites
Co-requisites
Planned learning activities and teaching methods
Assesment methods and criteria linked to learning outcomes
- 1 test within laboratories - 20 points maximum,
- final written examination - 60 points maximum,
- oral examination - 10 points maximum
Course curriculum
2. Architectures of mobile networks – basic functional elements, their goals and features. GSM system - evolution, phases 1, 2, 2+, architecture, interfaces. Mobile network service – speech services, voice encoding - FR, HR, EFR; data services; radio interface communication security.
3. GSM radio access network, base station subsystem - BTS, BSC; GSM radio interface – frequency bands, physical communication channels, multiplex and multiple access techniques, data bursts, logical channels and their functions.
4. GSM network subsystem - MSC, GMSC, registers - HLR, VLR, EIR; SMS service and its implementation in GSM networks. Signalling in GSM networks - signalling system, mobile station authentication, transmission of information about the location of mobile station position.
5. Operational subsystem - operating and service centre, network management centre, administration centre, intelligent service centre.
6. Data transmission services in mobile networks – CSD and HSCSD technologies in pure GSM; packet-based data transmission technologies – GPRS/EDGE – GPRS network architecture, features of SGSN and GGSN nodes.
7. GPRS radio access network – sharing of radio network resources with GSM, physical and logical transmission channels, coding schemes, mobility and packet data protocol contexts; EDGE – modulation and coding schemes, network modifications required in previous GPRS network.
8. Third generation mobile networks –evolution, targets, types, IMT-2000 bands – UMTS, CDMA 2000. UMTS technology – network architecture, duplex techniques – FDD and TDD.
9. UMTS radio access network – nodes NodeB, RNC and their tasks; radio interface - WCDMA technique, its description and features. Handover in UMTS networks - hard, soft, softer. Communication channels in UMTS – physical, transport and logical ones and their tasks.
10. Transmission capacity enhancement and latency reduction in 3G networks for multimedia services – HSDPA, HSUPA and HSPA+ technologies.
11. IMS subsystem – function, architecture, interfaces and their protocol stacks, registration procedure and service realization.
12. EPS (LTE) technologies – all IP network architecture, access (LTE) and core (EPC) parts. LTE radio interface – OFDMA and SC-FDMA access techniques, adaptive modulation and coding schemes, radio interface channel structure - physical, transport and logical channels.
13. EPS core network - MME, HSS, PCRF, S-GW a P-GW nodes and their tasks, interfaces, user and control plane protocol architectures. Signalling – message sequences for implementation of control procedures and data services. Voice service in EPS – CSFB, VoLTE and SRVCC techniques.
Work placements
Aims
Specification of controlled education, way of implementation and compensation for absences
Recommended optional programme components
Prerequisites and corequisites
Basic literature
Recommended reading
Classification of course in study plans
- Programme IBEP-V Master's
branch V-IBP , 1 year of study, winter semester, elective specialised
branch V-IBP , 2 year of study, winter semester, elective specialised - Programme EEKR-M Master's
branch M-TIT , 2 year of study, winter semester, elective specialised
- Programme EEKR-CZV lifelong learning
branch EE-FLE , 1 year of study, winter semester, elective specialised
Type of course unit
Lecture
Teacher / Lecturer
Syllabus
2. Architectures of mobile networks – basic functional elements, their goals and features. GSM system - evolution, phases 1, 2, 2+, architecture, interfaces. Mobile network service – speech services, voice encoding - FR, HR, EFR; data services; radio interface communication security.
3. GSM radio access network, base station subsystem - BTS, BSC; GSM radio interface – frequency bands, physical communication channels, multiplex and multiple access techniques, data bursts, logical channels and their functions.
4. GSM network subsystem - MSC, GMSC, registers - HLR, VLR, EIR; SMS service and its implementation in GSM networks. Signalling in GSM networks - signalling system, mobile station authentication, transmission of information about the location of mobile station position.
5. Operational subsystem - operating and service centre, network management centre, administration centre, intelligent service centre.
6. Data transmission services in mobile networks – CSD and HSCSD technologies in pure GSM; packet-based data transmission technologies – GPRS/EDGE – GPRS network architecture, features of SGSN and GGSN nodes.
7. GPRS radio access network – sharing of radio network resources with GSM, physical and logical transmission channels, coding schemes, mobility and packet data protocol contexts; EDGE – modulation and coding schemes, network modifications required in previous GPRS network.
8. Third generation mobile networks –evolution, targets, types, IMT-2000 bands – UMTS, CDMA 2000. UMTS technology – network architecture, duplex techniques – FDD and TDD.
9. UMTS radio access network – nodes NodeB, RNC and their tasks; radio interface - WCDMA technique, its description and features. Handover in UMTS networks - hard, soft, softer. Communication channels in UMTS – physical, transport and logical ones and their tasks.
10. Transmission capacity enhancement and latency reduction in 3G networks for multimedia services – HSDPA, HSUPA and HSPA+ technologies.
11. IMS subsystem – function, architecture, interfaces and their protocol stacks, registration procedure and service realization.
12. EPS (LTE) technologies – all IP network architecture, access (LTE) and core (EPC) parts. LTE radio interface – OFDMA and SC-FDMA access techniques, adaptive modulation and coding schemes, radio interface channel structure - physical, transport and logical channels.
13. EPS core network - MME, HSS, PCRF, S-GW a P-GW nodes and their tasks, interfaces, user and control plane protocol architectures. Signalling – message sequences for implementation of control procedures and data services. Voice service in EPS – CSFB, VoLTE and SRVCC techniques.
Laboratory exercise
Teacher / Lecturer
Syllabus
2. Cell selection and reselection in GSM and GPRS networks.
3. Signalling in IMS networks.
4. Configuration and measurement of VoIP parameters in mobile data networks.
5. Database of experimental mobile network at FEKT VUT in Brno
6. Measurement at the Mo-bis and A-bis interfaces of GSM network
7. Analysis of information from radio interface of GSM/GPRS network
8. Analysis of information from radio interface of UMTS
9. Transmission of SMS messages in PDU format
10. Remote control of FTP server via data mobile network.
11. Communication in LTE network
12. Spare laboratory
13. Credit test