Lecture
1. INTRODUCTION TO THE STANDARD GSМ
1.1. Brief history of development.
1.2. The structure of the standard.
1.3. General and technical characteristics of the standard GSM 900/1800.
2. ORGANIZATION OF A CELLULAR MOBILE COMMUNICATION NETWORK GSM.
2.1. General provisions.
2.2. Principles of mobile network organization.
2.3. Mobile cellular frequency bands.
2.4. The principle of frequency reuse.
2.5. Estimation of the number of physical radio channels in an arbitrary cell.
2.6.1. The structure of the network components.
2.6.2. The structure of the network components.
2.6.3. The structure of the network components.
2.7. Service structure.
2.8. Multiple access methods.
2.9. TDMA frame structure and signal shaping.
2.10. Channels of connection.
2.11. Signaling in mobile networks.
3. ANTENNAS AND FEATURES OF SPREADING OF RADIO WAVES IN CELLULAR MOBILE COMMUNICATION SYSTEMS.
3.1. General provisions.
3.2. Antennas in cellular mobile communication systems.
3.3. Mobile station antennas.
3.4. Features of antenna systems of base stations.
3.5. Features of radio wave propagation.
3.6. Parameters of radio communication systems.
3.7. The influence of forests on the propagation of radio waves.
4. MOBILE STATIONS
4.1. Structural diagram of a mobile station
4.2. Features of speech signal conversion in the GSM standard.
4.3. Speech coding.
4.4. Channel coder.
4.5. GMSK modulation.
4.6. High-frequency paths in the mobile station.
4.7. Equalizer in the mobile station.
4.8. SIM card in the mobile station. Authentication and identification
4.9. Power management in GSM standard systems.
5. BASE STATIONS.
5.1. General provisions.
5.2. The block diagram of the base station standard GSM.
6. FUNCTIONING OF CELLULAR MOBILE COMMUNICATION SYSTEMS GSM STANDARD .
6.1. Establishment of communication.
6.2. Authentication and identification.
6.3. Transfer service.
6.4. Roaming
6.5. Transmitter power control.
7. PROBLEMS OF DESIGN AND MONITORING IN SYSTEMS OF MOBILE CELLULAR COMMUNICATIONS.
7.1. Goals and objectives of design.
7.2. Design methods.
7.3. Principles of radio coverage of service areas.
7.4. Distribution of channels in a cellular network.
7.5. Calculation of the budget of radio lines in cellular mobile communication systems.
7.6. Capacity cellular mobile network.
7.7. Recommendations for network planning and optimization.
7.8. Measurements and monitoring in radio frequency systems.
7.9. Measurement of parameters in radio frequency systems.
7.10. Norms on the levels of electromagnetic radiation.
7.11. Mathematical model of electromagnetic radiation by mobile and base stations.
7.12. Experimental studies of the radiation levels of antennas BTS.
8. SERVICES, FRODE AND SAFETY IN THE SYSTEMS OF CELLULAR MOBILE COMMUNICATION .
8.1. Mobile phone and its capabilities.
8.2. Services in mobile cellular systems.
8.3. Fraud in cellular mobile communication systems.
8.4. Security issues in mobile cellular systems.
9. COMMUNICATION OF NETWORKS OF COMMUNICATION IN THE STANDARD GSM.
9.1. The tasks of the network management system.
9.2. Principles of building a network management system.
9.3. Distribution of network management functions.
9.4. Standard interfaces in the network management system.
10. PROSPECTS OF DEVELOPMENT OF CELLULAR MOBILE COMMUNICATION SYSTEMS .
10.1. Mobile communication systems of the 2nd generation.
10.2. The evolution of GSM networks to the 3rd generation of mobile communication systems.
10.3. The third generation of mobile communication systems.
10.4. Features of the services of the 3rd generation of mobile communication systems.
10.5. Mobile communications of the 21st century.
Annex 1.
RANDOM PROCESSES IN MOBILE MOBILE COMMUNICATION SYSTEMS .
P. 1.1. Random variables and random processes.
P. 1.2. Differential and integral distribution functions of random variables.
P. 1.3. Numerical characteristics of random variables.
P. 1.4. The laws of distribution of random variables used in mathematical models.
List of abbreviations.
Literature.
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GSM Basics
Terms: GSM Basics