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Table of contents is as follows:
Contents
Preface
Acknowledgments
1 Overview
1.1 History of Mobile Cellular Systems
1.1.1 First Generation
1.1.2 Second Generation
1.1.3 Generation 2.5
1.2 Overview of 3G
1.3 Proposals for 3G Standard
1.3.1 WCDMA
1.3.2 Advanced TDMA
1.3.3 Hybrid CDMA/TDMA
1.3.4 OFDM
1.3.5 IMT-2000
1.4 3GPP
1.4.1 TDD
1.4.2 TD-SCDMA
1.5 3GPP2
1.6 3G Evolution Paths
References
2 Principles of CDMA
2.1 Radio-Channel Access Schemes
2.2 Spread Spectrum
2.3 RAKE Receiver
2.4 Power Control
2.5 Handovers
2.5.1 Soft Handover
2.5.2 Relocation
2.5.3 Hard Handover
2.5.4 Intersystem Handovers
2.6 Multiuser Detection
References
3 WCDMA Air Interface: Physical Layer
3.1 General
3.1.1 Forward Error Correction Encoding/Decoding
3.1.2 Radio Measurements and Indications to Higher Layers
3.1.3 Macrodiversity Distribution/Combining and Soft Handove
Execution
3.1.4 Error Detection on Transport Channels
3.1.5 Multiplexing of Transport Channels and Demultiplexing of
CCTrCHs
3.1.6 Rate Matching
3.1.7 Mapping of CCTrCHs on Physical Channels
3.1.8 Modulation, Spreading/Demodulation, and Despreading
of Physical Channels
3.1.9 Frequency and Time Synchronization
3.1.10 Inner-Loop Power Control
3.1.11 Power Weighting and Combining of Physical Channels
3.1.12 RF Processing
3.1.13 Timing Advance on Uplink Channels
3.1.14 Support of Uplink Synchronization
3.2 Channels
3.2.1 Logical Channels
3.2.2 Transport Channels
3.2.3 Physical Channels
3.2.4 Shared Channels
3.2.5 Channel Mapping
3.3 Spreading and Scrambling Codes
3.4 Diversity
3.4.1 Time Diversity
3.4.2 Multipath Diversity
3.4.3 Macrodiversity
3.4.4 Antenna Diversity
3.5 Transport Formats
3.6 Data Through Layer 1
References
4 Modulation Techniques and Spread Spectrum
4.1 Spreading Techniques
4.1.1 DS-CDMA
4.1.2 Frequency-Hopping CDMA
4.1.3 Time-Hopping CDMA
4.1.4 Multicarrier CDMA
4.2 Data Modulation
References
5 Spreading Codes
5.1 Orthogonal Codes
5.2 PN Codes
5.3 Synchronization Codes
5.4 Autocorrelation and Cross-Correlation
5.5 Intercell Interference
References
6 Channel Coding
6.1 Coding Processes
6.2 Coding Theory
6.3 Block Codes
6.4 Convolutional Codes
6.5 Turbo Codes
6.6 Channel Coding in UTRAN
References
7 Wideband CDMA Air Interface: Protocol Stack
47.1 General Points
7.2 Control Plane
7.3 MAC
7.3.1 MAC Services
7.3.2 MAC Functions
7.3.3 TFC Selection
7.4 RLC
7.4.1 RLC Services
7.4.2 RLC Functions
7.5 RRC
7.5.1 RRC Services
7.5.2 RRC Functions
7.6 RRC Protocol States
7.7 Location Management in UTRAN
7.8 Core Network Protocols in the Air Interface
7.8.1 Circuit-Switched Core Network
7.8.2 Packet-Switched Core Network
7.9 User Plane
7.10 Packet Data Convergence Protocol
7.11 Broadcast/Multicast Control
7.12 Data Protocols
7.13 Dual-System Protocol Stack in UE
References
8 Network
8.1 General Discussion
8.2 Evolution from GSM
8.3 UMTS Network Structure
8.4 Core Network
8.4.1 Mobile Switching Center
8.4.2 Visitor Location Register
8.4.3 Home Location Register
8.4.4 Equipment Identity Register
8.4.5 Authentication Center
8.4.6 Gateway MSC
8.4.7 Serving GPRS Support Node
8.4.8 Gateway GPRS Support Node
8.5 UMTS Terrestrial Radio Access Network
8.5.1 Radio Network Controller
8.5.2 Node B
8.6 GSM Radio Access Network
8.6.1 Base Station Controller
8.6.2 Base Transceiver Station
8.6.3 Small Base Transceiver Stations
8.7 Interfaces
8.7.1 A Interface
8.7.2 Gb Interface
8.7.3 Iu Interface
8.7.4 Iub Interface
8.7.5 Iur Interface
8.7.6 MAP Interfaces
8.8 Network Protocols
8.8.1 Asynchronous Transfer Mode
8.8.2 AAL2 and AAL5
8.8.3 Iu User Plane Protocol Layer
8.8.4 GPRS Tunnelling Protocol-User
8.8.5 SS7 MTP3-User Adaptation Layer
8.8.6 MAP (MAP-A Through MAP-M)
8.8.7 Message Transfer Part
8.8.8 Node B Application Part
8.8.9 Physical Layer (Below ATM)
8.8.10 Q.2150.1
8.8.11 Q.2630.1
8.8.12 Radio Access Network Application Part
8.8.13 Radio Network Subsystem Application Part
8.8.14 Signaling ATM Adaptation Layer
8.8.15 Service-Specific Coordination Function
8.8.16 Service-Specific Connection-Oriented Protocol
8.8.17 Signaling Connection Control Part
8.8.18 Stream Control Transmission Protocol
8.8.19 UDP/IP
8.9 UMTS Network Evolution—Release 5
References
9 Network Planning
9.1 Importance of Network Planning
9.2 Differences Between TDMA and CDMA
9.3 Network Planning Terminology
9.4 Network Planning Process
9.4.1 Preparation Phase
9.4.2 Network Dimensioning
9.4.3 Detailed Radio-Network Planning
9.5 Network Planning in WCDMA
9.5.1 Pilot Pollution
9.5.2 SHO Parameters
9.5.3 HO Problems
9.5.4 Hierarchical Cells
9.5.5 Microcell Deployment
9.5.6 Picocell Deployment and Indoor Planning
9.5.7 Sectorization and Adaptive Antennas
9.5.8 Other Network Elements
9.6 Admission Control
9.7 Congestion Control
References
10 Network Management
10.1 Telecommunication-Management Architecture
10.1.1 Fault Management
10.1.2 Configuration Management
10.1.3 Performance Management
10.1.4 Roaming Management
10.1.5 Accounting Management
10.1.6 Subscription Management
10.1.7 QoS Management
10.1.8 User Equipment Management
10.1.9 Fraud Management
10.1.10 Security Management
10.1.11 Software Management
10.2 Charging
10.2.1 Charging of Circuit-Switched Services
10.2.2 Charging of Packet-Switched Services
10.3 Billing
10.4 Service Providers Versus Operators
References
11 Procedures
11.1 RRC Connection Procedures
11.1.1 RRC Connection Establishment
11.1.2 Signaling Connection Establishment
11.1.3 RRC Connection Release
11.2 Radio Bearer Procedures
11.2.1 Radio Bearer Establishment
11.2.2 Radio Bearer Release
11.2.3 Radio Bearer Reconfiguration
11.2.4 Transport Channel Reconfiguration
11.2.5 Physical Channel Reconfiguration
11.2.6 Control of Requested QoS
11.3 Data Transmission
11.4 Handovers
11.4.1 Soft Handover
11.4.2 Hard Handover
11.4.3 Intersystem Handovers
11.5 Random Access Procedure
References
12 New Concepts in the UMTS Network
12.1 Location Services
12.1.1 Cell-Coverage-Based Method
12.1.2 Observed Time Difference of Arrival
12.1.3 Network-Assisted Global Positioning System
12.1.4 Other Methods
12.1.5 Comparison of Location Methods
12.1.6 Service Categories
12.2 High-Speed Downlink Packet Access
12.3 Multimedia Broadcast/Multicast Service
12.3.1 Broadcast Service
12.3.2 Multicast Service
12.4 Multimedia Messaging Service
12.4.1 The Service
12.4.2 MMS Elements
12.4.3 MMS Protocols
12.5 Supercharger
12.6 Prepaging
12.7 Gateway Location Register
12.8 Optimal Routing
12.9 Adaptive Multirate Codec
12.10 Support of Localized Service Area
12.11 Smart Antennas
References
13 3G Services
13.1 Service Categories
13.2 Teleservices
13.3 Bearer Services
13.4 Supplementary Services
13.5 Service Capabilities
13.6 QoS Classes
13.6.1 Conversational Real-Time Services
13.6.2 Interactive Services
13.6.3 Streaming Services
13.6.4 Background Services
13.6.5 QoS Service Classes and 3G Radio Interface
References
14 3G Applications
14.1 Justification for 3G
14.2 Path into the Market
14.3 Applications As Competition Tools
14.4 Application Technologies
14.4.1 Wireless Application Protocol
14.4.2 Java
14.4.3 BREW
14.4.4 Bluetooth
14.4.5 I-mode
14.4.6 Electronic Payment
14.4.7 IPv6
14.5 Multimedia
14.5.1 Application Types
14.5.2 Technical Problems
14.6 Traffic Characteristics of 3G Applications
14.7 M-commerce
14.8 Examples of 3G Applications
14.8.1 Voice
14.8.2 Messaging
14.8.3 Internet Access
14.8.4 Location-Based Applications
14.8.5 Games
14.8.6 Advertising
14.8.7 Betting and Gambling
14.8.8 Dating Applications
14.8.9 Adult Entertainment
14.9 Terminals
14.9.1 Voice Terminals
14.9.2 Multimedia Terminals
14.9.3 Navigation Devices
14.9.4 Game Devices
14.9.5 Machine-to-Machine Devices
References
15 The Future
15.1 New Spectrum
15.2 Satellites
15.2.1 The Market for MSS Networks
15.2.2 Satellite Orbits
15.2.3 Examples of MSS Systems
15.2.4 Location in Satellite Systems
15.2.5 Restricted Coverage
15.2.6 Diversity
15.2.7 Satellite Paging
15.2.8 IMT-2000 Satellite Component
15.3 3G Upgrades
15.4 Downlink Bottleneck
15.4.1 TDD
15.4.2 HSDPA
15.4.3 WLAN Interworking
15.4.4 Variable Duplex Distance
15.4.5 Hierarchical Cell Structures
15.4.6 Comparing the Schemes
15.5 4G Vision
References
16 Specifications
16.1 Specification Process
16.2 Releases
16.3 3GPP Specifications
16.3.1 Series Numbering
16.3.2 Version Numbering
16.3.3 Backwards Compatibility
Reference
Appendix A: Cellular User Statistics
Appendix B: 3GPP Specifications
Appendix C: Useful Web Addresses
Appendix D: Nokia Communicator
Appendix E: Standardization Organizations and Industry Groups
About the Author
Index
Warm Regards.
Default Pass: whatzup
Kindly follow the following link to download this material.
Artech.House.Introduction.To.3G.Mobile.Communications.2nd.Edition.eBook-LiB.rar - 4shared.com - online file sharing and storage - download (http://www.4shared.com/file/dODNPNQY/ArtechHouseIntroductionTo3GMob.html)
Default Pass: whatzup
Please don't forget to hit the "rep" and "Thanks" buttons.
Table of contents is as follows:
Contents
Preface
Acknowledgments
1 Overview
1.1 History of Mobile Cellular Systems
1.1.1 First Generation
1.1.2 Second Generation
1.1.3 Generation 2.5
1.2 Overview of 3G
1.3 Proposals for 3G Standard
1.3.1 WCDMA
1.3.2 Advanced TDMA
1.3.3 Hybrid CDMA/TDMA
1.3.4 OFDM
1.3.5 IMT-2000
1.4 3GPP
1.4.1 TDD
1.4.2 TD-SCDMA
1.5 3GPP2
1.6 3G Evolution Paths
References
2 Principles of CDMA
2.1 Radio-Channel Access Schemes
2.2 Spread Spectrum
2.3 RAKE Receiver
2.4 Power Control
2.5 Handovers
2.5.1 Soft Handover
2.5.2 Relocation
2.5.3 Hard Handover
2.5.4 Intersystem Handovers
2.6 Multiuser Detection
References
3 WCDMA Air Interface: Physical Layer
3.1 General
3.1.1 Forward Error Correction Encoding/Decoding
3.1.2 Radio Measurements and Indications to Higher Layers
3.1.3 Macrodiversity Distribution/Combining and Soft Handove
Execution
3.1.4 Error Detection on Transport Channels
3.1.5 Multiplexing of Transport Channels and Demultiplexing of
CCTrCHs
3.1.6 Rate Matching
3.1.7 Mapping of CCTrCHs on Physical Channels
3.1.8 Modulation, Spreading/Demodulation, and Despreading
of Physical Channels
3.1.9 Frequency and Time Synchronization
3.1.10 Inner-Loop Power Control
3.1.11 Power Weighting and Combining of Physical Channels
3.1.12 RF Processing
3.1.13 Timing Advance on Uplink Channels
3.1.14 Support of Uplink Synchronization
3.2 Channels
3.2.1 Logical Channels
3.2.2 Transport Channels
3.2.3 Physical Channels
3.2.4 Shared Channels
3.2.5 Channel Mapping
3.3 Spreading and Scrambling Codes
3.4 Diversity
3.4.1 Time Diversity
3.4.2 Multipath Diversity
3.4.3 Macrodiversity
3.4.4 Antenna Diversity
3.5 Transport Formats
3.6 Data Through Layer 1
References
4 Modulation Techniques and Spread Spectrum
4.1 Spreading Techniques
4.1.1 DS-CDMA
4.1.2 Frequency-Hopping CDMA
4.1.3 Time-Hopping CDMA
4.1.4 Multicarrier CDMA
4.2 Data Modulation
References
5 Spreading Codes
5.1 Orthogonal Codes
5.2 PN Codes
5.3 Synchronization Codes
5.4 Autocorrelation and Cross-Correlation
5.5 Intercell Interference
References
6 Channel Coding
6.1 Coding Processes
6.2 Coding Theory
6.3 Block Codes
6.4 Convolutional Codes
6.5 Turbo Codes
6.6 Channel Coding in UTRAN
References
7 Wideband CDMA Air Interface: Protocol Stack
47.1 General Points
7.2 Control Plane
7.3 MAC
7.3.1 MAC Services
7.3.2 MAC Functions
7.3.3 TFC Selection
7.4 RLC
7.4.1 RLC Services
7.4.2 RLC Functions
7.5 RRC
7.5.1 RRC Services
7.5.2 RRC Functions
7.6 RRC Protocol States
7.7 Location Management in UTRAN
7.8 Core Network Protocols in the Air Interface
7.8.1 Circuit-Switched Core Network
7.8.2 Packet-Switched Core Network
7.9 User Plane
7.10 Packet Data Convergence Protocol
7.11 Broadcast/Multicast Control
7.12 Data Protocols
7.13 Dual-System Protocol Stack in UE
References
8 Network
8.1 General Discussion
8.2 Evolution from GSM
8.3 UMTS Network Structure
8.4 Core Network
8.4.1 Mobile Switching Center
8.4.2 Visitor Location Register
8.4.3 Home Location Register
8.4.4 Equipment Identity Register
8.4.5 Authentication Center
8.4.6 Gateway MSC
8.4.7 Serving GPRS Support Node
8.4.8 Gateway GPRS Support Node
8.5 UMTS Terrestrial Radio Access Network
8.5.1 Radio Network Controller
8.5.2 Node B
8.6 GSM Radio Access Network
8.6.1 Base Station Controller
8.6.2 Base Transceiver Station
8.6.3 Small Base Transceiver Stations
8.7 Interfaces
8.7.1 A Interface
8.7.2 Gb Interface
8.7.3 Iu Interface
8.7.4 Iub Interface
8.7.5 Iur Interface
8.7.6 MAP Interfaces
8.8 Network Protocols
8.8.1 Asynchronous Transfer Mode
8.8.2 AAL2 and AAL5
8.8.3 Iu User Plane Protocol Layer
8.8.4 GPRS Tunnelling Protocol-User
8.8.5 SS7 MTP3-User Adaptation Layer
8.8.6 MAP (MAP-A Through MAP-M)
8.8.7 Message Transfer Part
8.8.8 Node B Application Part
8.8.9 Physical Layer (Below ATM)
8.8.10 Q.2150.1
8.8.11 Q.2630.1
8.8.12 Radio Access Network Application Part
8.8.13 Radio Network Subsystem Application Part
8.8.14 Signaling ATM Adaptation Layer
8.8.15 Service-Specific Coordination Function
8.8.16 Service-Specific Connection-Oriented Protocol
8.8.17 Signaling Connection Control Part
8.8.18 Stream Control Transmission Protocol
8.8.19 UDP/IP
8.9 UMTS Network Evolution—Release 5
References
9 Network Planning
9.1 Importance of Network Planning
9.2 Differences Between TDMA and CDMA
9.3 Network Planning Terminology
9.4 Network Planning Process
9.4.1 Preparation Phase
9.4.2 Network Dimensioning
9.4.3 Detailed Radio-Network Planning
9.5 Network Planning in WCDMA
9.5.1 Pilot Pollution
9.5.2 SHO Parameters
9.5.3 HO Problems
9.5.4 Hierarchical Cells
9.5.5 Microcell Deployment
9.5.6 Picocell Deployment and Indoor Planning
9.5.7 Sectorization and Adaptive Antennas
9.5.8 Other Network Elements
9.6 Admission Control
9.7 Congestion Control
References
10 Network Management
10.1 Telecommunication-Management Architecture
10.1.1 Fault Management
10.1.2 Configuration Management
10.1.3 Performance Management
10.1.4 Roaming Management
10.1.5 Accounting Management
10.1.6 Subscription Management
10.1.7 QoS Management
10.1.8 User Equipment Management
10.1.9 Fraud Management
10.1.10 Security Management
10.1.11 Software Management
10.2 Charging
10.2.1 Charging of Circuit-Switched Services
10.2.2 Charging of Packet-Switched Services
10.3 Billing
10.4 Service Providers Versus Operators
References
11 Procedures
11.1 RRC Connection Procedures
11.1.1 RRC Connection Establishment
11.1.2 Signaling Connection Establishment
11.1.3 RRC Connection Release
11.2 Radio Bearer Procedures
11.2.1 Radio Bearer Establishment
11.2.2 Radio Bearer Release
11.2.3 Radio Bearer Reconfiguration
11.2.4 Transport Channel Reconfiguration
11.2.5 Physical Channel Reconfiguration
11.2.6 Control of Requested QoS
11.3 Data Transmission
11.4 Handovers
11.4.1 Soft Handover
11.4.2 Hard Handover
11.4.3 Intersystem Handovers
11.5 Random Access Procedure
References
12 New Concepts in the UMTS Network
12.1 Location Services
12.1.1 Cell-Coverage-Based Method
12.1.2 Observed Time Difference of Arrival
12.1.3 Network-Assisted Global Positioning System
12.1.4 Other Methods
12.1.5 Comparison of Location Methods
12.1.6 Service Categories
12.2 High-Speed Downlink Packet Access
12.3 Multimedia Broadcast/Multicast Service
12.3.1 Broadcast Service
12.3.2 Multicast Service
12.4 Multimedia Messaging Service
12.4.1 The Service
12.4.2 MMS Elements
12.4.3 MMS Protocols
12.5 Supercharger
12.6 Prepaging
12.7 Gateway Location Register
12.8 Optimal Routing
12.9 Adaptive Multirate Codec
12.10 Support of Localized Service Area
12.11 Smart Antennas
References
13 3G Services
13.1 Service Categories
13.2 Teleservices
13.3 Bearer Services
13.4 Supplementary Services
13.5 Service Capabilities
13.6 QoS Classes
13.6.1 Conversational Real-Time Services
13.6.2 Interactive Services
13.6.3 Streaming Services
13.6.4 Background Services
13.6.5 QoS Service Classes and 3G Radio Interface
References
14 3G Applications
14.1 Justification for 3G
14.2 Path into the Market
14.3 Applications As Competition Tools
14.4 Application Technologies
14.4.1 Wireless Application Protocol
14.4.2 Java
14.4.3 BREW
14.4.4 Bluetooth
14.4.5 I-mode
14.4.6 Electronic Payment
14.4.7 IPv6
14.5 Multimedia
14.5.1 Application Types
14.5.2 Technical Problems
14.6 Traffic Characteristics of 3G Applications
14.7 M-commerce
14.8 Examples of 3G Applications
14.8.1 Voice
14.8.2 Messaging
14.8.3 Internet Access
14.8.4 Location-Based Applications
14.8.5 Games
14.8.6 Advertising
14.8.7 Betting and Gambling
14.8.8 Dating Applications
14.8.9 Adult Entertainment
14.9 Terminals
14.9.1 Voice Terminals
14.9.2 Multimedia Terminals
14.9.3 Navigation Devices
14.9.4 Game Devices
14.9.5 Machine-to-Machine Devices
References
15 The Future
15.1 New Spectrum
15.2 Satellites
15.2.1 The Market for MSS Networks
15.2.2 Satellite Orbits
15.2.3 Examples of MSS Systems
15.2.4 Location in Satellite Systems
15.2.5 Restricted Coverage
15.2.6 Diversity
15.2.7 Satellite Paging
15.2.8 IMT-2000 Satellite Component
15.3 3G Upgrades
15.4 Downlink Bottleneck
15.4.1 TDD
15.4.2 HSDPA
15.4.3 WLAN Interworking
15.4.4 Variable Duplex Distance
15.4.5 Hierarchical Cell Structures
15.4.6 Comparing the Schemes
15.5 4G Vision
References
16 Specifications
16.1 Specification Process
16.2 Releases
16.3 3GPP Specifications
16.3.1 Series Numbering
16.3.2 Version Numbering
16.3.3 Backwards Compatibility
Reference
Appendix A: Cellular User Statistics
Appendix B: 3GPP Specifications
Appendix C: Useful Web Addresses
Appendix D: Nokia Communicator
Appendix E: Standardization Organizations and Industry Groups
About the Author
Index
Warm Regards.
Default Pass: whatzup