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Mobile radiocommunication systems
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ID: 33035

Krzysztof Wesołowski

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Author: Krzysztof Wesołowski

ISBN: 83-206-1469-4
Format: B5, 484 pages
Edition 3
Hardcover
Publisher: WKiŁ

About the book
Mobile radiocommunication is one of the most dynamically developing branches of modern telecommunications. Mobile radio communications systems have become almost universally used. The author tries to bring this issue to light, discussing both theoretical foundations and examples of mobile radiocommunications systems and their standards. In the third, thoroughly revised edition of the book, the Reader will find:
  • the necessary theoretical foundations of digital telecommunications systems,
  • description of the properties of transmission channels found in mobile radiocommunication systems,
  • principles of designing such systems,
  • description of the first generation NTM system,
  • detailed discussion of the structure and operating principles of second generation systems: GSM and IS-95,
  • description of many other RR systems, such as: wireless telephone systems (eg DECT), trunking systems, paging systems, satellite personal radio communication,
  • application of mobile radiocommunication techniques to implement a wireless subscriber's loop,
  • operating principles and standards for the wireless contact of wireless computer networks (WLAN),
  • description of third generation UMTS and cdma2000 systems,
  • basic information about the principles of adaptive antennas.
In 2002, the book was published in English by the publishing house John Wiley & Sons under the title Mobile Communication Systems.

Recipients: research workers and students of electronics, telecommunications and computer science, students of postgraduate studies in the field of electronics, telecommunications and IT and telecommunications engineers.


Table of Contents

Admission

Chapter I
THE ELEMENTS OF THE DIGITAL TELECOMMUNICATION SYSTEMS
1.1. Admission
1.2. The model of the digital signal transmission system
1.3. Speech encoders and decoders
1.4. Channel coding
1.4.1. Channel models due to coding
1.4.2. The essence of redundant coding
1.4.3. Code division
1.4.4. Block codes and their polynomial description
1.4.5. Application of block codes with error detection - ARQ technique
1.4.6. Weave codes
1.4.7. Dissipation of errors - application of interleaving
1.4.8. Cascade coding concept
1.4.9. Turbo-coding principle
1.5. Digital modulations used in mobile radiocommunication systems
1.5.1. Single carrier modulations
1.5.1. Multi-tone modulations
1.6. The principle of operation of broadband systems
1.7. Multiple access methods used in mobile radiocommunication
1.8. Duplex transmission methods
1.9. Competition for access to the channel
1.10. OSI model
1.11. X.25 protocol - an example of a packet switched protocol
1.12. Signaling system No. 7
1.13. IP networks
Literature

Chapter II
OVERVIEW AND CLASSIFICATION OF RADIO COMMUNICATION SYSTEMS WITH MOVING OBJECTS
2.1. Admission
2.2. Paging systems
2.3. Wireless telephony
2.4. Trunking systems
2.5. mobile network
2.6. Mobile radiocommunication systems using satellites
2.7. Wireless access to local computer networks
Literature

Chapter III
PROPERTIES OF THE TRANSMISSION CHANNEL IN MOVEMENT SYSTEMS
3.1. Admission
3.2. Propagation of the signal in the free space
3.3. The influence of multipath on signal propagation
3.4. Transmission channel in mobile radiocommunication systems
3.5. Modeling of average power drop as a function of distance from the transmit antenna
3.5.1. Lee model
3.5.2. Model Okumury
3.5.3. Haty model
3.5.4. Model COST231-Haty
3.5.5. Model COST231-Walfisha-Ikegami
3.5.6. Example of damping evaluation using selected propagation models
3.5.7. Estimation of propagation suppression in indoor channels
3.6. Influence of a radiocommunication channel on signals with different bandwidth
3.7. Collective collection
Literature

Chapter IV
PURCHASING SYSTEMS
4.1. Admission
4.2. Determination of the paging system and its basic properties
4.3. Classification of paging networks
4.4. POCSAG data formatting protocol
4.5. The European ERMES paging system
4.6. The FLEX family of protocols
4.7. Conclusions. The future of paging systems
Literature

Chapter V
THE CONCEPT OF MOBILE PHONE AND THE BASIS FOR ITS DESIGN
5.1. The idea of mobile telephony
5.2. Principles of simplified cell distribution planning for the classic cellular system
5.3. Elements of motion theory in application to cellular systems
5.4. Methods of increasing system capacity
5.5. Rules for the separation of channels in cellular systems
Literature

Chapter VI
FIRST GENERATION MOBILE PHONE ON THE EXAMPLE OF THE SYSTEM
NMT
6.1. First generation mobile telephony systems
6.2. Assumptions and architecture of the NMT system
6.3. Control of information flow in the NMT system
6.4. Services offered by the NMT system
6.5. Construction of a typical mobile and base station
Literature

Chapter VII
GSM MOBILE PHONE - ARCHITECTURE AND SYSTEM ASPECT
7.1. Admission
7.2. Basics of GSM system architecture
7.3. Basic parameters of GSM radio transmission
7.4. Description of logical channels
7.5. Time structure of the GSM system
7.6. Structure of packages implementing logical channels
7.7. Description of procedures for implementing the connection
7.8. Moving a connection between cells
7.9. Ensuring the privacy of the call and the authenticity of the subscriber
7.10. Modifications and improvements of the GSM system and derivative systems
Literature

Chapter VIII
GSM MOBILE PHONE - PHYSICAL LAYER OF THE SYSTEM
8.1. Admission
8.2. Construction of a typical mobile station
8.3. Encoding and decoding of the speech signal
8.3.1. Coding at full speed
8.3.2. Half-speed coding
8.3.3. Encoding enriched at full speed
8.4. GMSK modulation
8.5. Sequential detection of data symbols
Literature

Chapter IX
DATA TRANSMISSION IN THE GSM SYSTEM
9.1. Admission
9.2. Organization of data transmission in the GSM system
9.3. Data services in the GSM system
9.3.1. Speed adaptation
9.3.2. Channel coding
9.3.3. Radio link protocol (RLP)
9.3.4. Data transmission in the aspect of access to different networks
9.4. Transmission of short messages - SMS
9.5. High speed data transmission system with switching channels - HSCSD
9.6. Packet transmission in the GSM - GPRS system
9.6.1. The architecture of the GPRS system
9.6.2. Physical layer of the GPRS system
9.6.3. Manage GPRS transmission
9.6.4. Services in the GPRS system
9.6.5. Architecture of GPRS protocols
9.7. The EDGE system
9.7.1. Admission
9.7.2. Major improvements at the physical layer
Literature

Chapter X
USE OF THE CODE (CDMA) MULTIPAGE METHOD IN DIGITAL MOTIOUS RADIO COMMUNICATIONS SYSTEM
10.1. Admission
10.2. Motivation to consider CDMA as a potential method of bandwidth access
10.3. Scattering strings
10.3.1. Sequences with maximum length
10.3.2. Strings of Gold and Kasami
10.3.3. Walsh strings
10.4. The basic transmission / reception system in the CDMA system
10.5. RAKE receiver
10.6. Combined detection of CDMA signals
10.7. Features of a typical CDMA system in mobile radiocommunication
10.8. Summary
Literature

Chapter XI
DESCRIPTION OF A PRACTICAL MOVIO RADIO COMMUNICATION SYSTEM USING THE CDMA METHOD - IS-95 SYSTEM
11.1. Admission
11.2. Frequency ranges used
11.3. Transmission from base station to mobile station
11.4. Transmission from a mobile station to a base station
11.5. Power control
11.6. Simplified procedure for establishing a connection
11.7. IS-95B system enhancements that increase data transfer rates
Literature

Chapter XII
TRANKING NETWORKS
12.1. Admission
12.2. The idea of traning
12.3. Standard MPT 1327
12.4. EDACS network - an example of a company standard
12.5. TETRA standard
12.5.1. Services offered in the TETRA system
12.5.2. General architecture of the TETRA system
12.5.3. The physical layer of the TETRA system
Literature

Chapter XIII
DIGITAL WIRELESS TELEPHONE
13.1. Admission
13.2. CT2 standard
13.3. DECT system
13.3.1. Architecture of the DECT system
13.3.2. The physical layer of the DECT system
13.3.3. Description of the medium access control layer (MAC)
13.3.4. Interoperability of the DECT system with the GSM system
13.3.5. Description of a typical mobile station of the DECT system
Literature

Chapter XIV
TECHNIQUES OF MOBILE RADIO COMMUNICATION SYSTEMS IN THE IMPLEMENTATION OF WIRELESS SUBSYSTEM LOOPS
14.1. Admission
14.2. PMP systems
14.3. Systems with the use of cellular telephony
14.4. Application of wireless telephone standards in a wireless subscriber loop
Literature

Chapter XV
SATELLITE SYSTEMS OF PERSONAL RADIO COMMUNICATIONS
15.1. Admission
15.2. Satellite systems of first and second generation mobile radiocommunication - short
description
15.3. The concept of personal radio communication systems and their division
15.4. Services offered by satellite personal systems and their prospects
15.5. Presentation of the most important satellite systems of personal radiocommunication
15.5.1. The IRIDIUM system
15.5.2. GLOBALSTAR
16.5.3. ICO system
15.6. Future systems with broadband access
15.6.1. Teledesic
15.6.2. Skybridge system
Literature
Addition

Chapter XVI
WIRELESS COMPUTER LOCAL NETWORKS
16.1. Introduction
16.2. Types of WLAN networks
16.3. The hidden station problem
16.4. HIPERLAN / 1
16.4.1. MAC sublayer of the HIPERLAN / 1 network
16.4.2. CAC sublayer of the HIPERLAN / 1 network
16.4.3. The physical layer of the HIPERLAN / 1 system
16.5. WLAN standards of the IEEE 802.11 series
16.5.1. The physical layer of the IEEE 802.11 network
16.5.1.1. Physical layer DS-SS
16.5.1.2. Physical layer FH-SS
16.5.1.3. Physical layer operating in the infrared range
16.5.2. The MAC sublayer of the IEEE 802.11 system
16.6. IEEE 802.11 and HIPERLAN standards for the 5 GHz band
16.6.1. Physical layer of the HIPERLAN / 2 system
16.6.2. Data link layer of the HIPELAN / 2 system
16.7. Bluetooth
Literature

Chapter XVII
THIRD GENERATION CELL SYSTEMS
17.1. Introduction
17.2. The concept of the UMTS system
17.3. UMTS access network architecture
17.4. Radio contact of the UMTS system
17.4.1. Physical layer of radio contact in FDD mode
17.4.2. Physical layer of radio contact in TDD mode
17.5. Cdma2000 system
17.6. Software Radio concept
17.6.1. Introduction
17.6.2. Determination of the minimum radio standard
17.6.3. The basic elements of Software Radio architecture
17.6.4. Software Radio in base stations
Literature

Chapter XVIII
THE APPLICATION OF THE TECHNOLOGY OF SMART ANTENNAS IN CELL PHONE SYSTEMS
18.1. Admission
18.2. The principle of operation of the smart antenna system
18.3. Analysis of the simple arrangement of adaptive antennas and the algorithm of its adaptation
18.4. The importance of using smart antennas
18.5. The impact of smart antenna technology on the increase of cellular system capacity
Literature

INDEX
33035

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