An Introduction to LTE : LTE, LTE-Advanced, SAE and 4G Mobile Communications /: LTE, LTE-Advanced, SAE and 4G Mobile Communications. (2012)
- Record Type:
- Book
- Title:
- An Introduction to LTE : LTE, LTE-Advanced, SAE and 4G Mobile Communications /: LTE, LTE-Advanced, SAE and 4G Mobile Communications. (2012)
- Main Title:
- An Introduction to LTE : LTE, LTE-Advanced, SAE and 4G Mobile Communications
- Further Information:
- Note: Christopher Cox.
- Authors:
- Cox, Christopher
- Contents:
- Preface Acknowledgements List of Abbreviations 1 Introduction 1.1 Architectural Review of UMTS and GSM 1.1.1 High Level Architecture 1.1.2 Architecture of the Radio Access Network 1.1.3 Architecture of the Core Network 1.1.4 Communication Protocols 1.2 History of Mobile Telecommunication Systems 1.2.1 From 1G to 3G 1.2.2 Third Generation Systems 1.3 The Need for LTE 1.3.1 The Growth of Mobile Data 1.3.2 Capacity of a Mobile Telecommunication System 1.3.3 Increasing the System Capacity 1.3.4 Additional Motivations 1.4 From UMTS to LTE 1.4.1 High Level Architecture of LTE 1.4.2 Long Term Evolution 1.4.3 System Architecture Evolution 1.5 From LTE to LTE-Advanced 1.5.1 The ITU Requirements for 4G 1.5.2 Requirements of LTE-Advanced 1.5.3 4G Communication Systems 1.5.4 The Meaning of 4G 1.6 The 3GPP Specifications for LTE References 2 System Architecture Evolution 2.1 Architecture of LTE 2.1.1 High Level Architecture 2.1.2 User Equipment 2.1.3 Evolved UMTS Terrestrial Radio Access Network 2.1.4 Evolved Packet Core 2.1.5 Roaming Architecture 2.1.6 Network Areas 2.1.7 Numbering, Addressing and Identification 2.2 Communication Protocols 2.2.1 Protocol Model 2.2.2 Air Interface Transport Protocols 2.2.3 Fixed Network Transport Protocols 2.2.4 User Plane Protocols 2.2.5 Signalling Protocols 2.3 Example Information Flows 2.3.1 Access Stratum Signalling 2.3.2 Non Access Stratum Signalling 2.3.3 Data Transport 2.4 Bearer Management 2.4.1 The EPS Bearer 2.4.2 Tunnelling Using GTP 2.4.3Preface Acknowledgements List of Abbreviations 1 Introduction 1.1 Architectural Review of UMTS and GSM 1.1.1 High Level Architecture 1.1.2 Architecture of the Radio Access Network 1.1.3 Architecture of the Core Network 1.1.4 Communication Protocols 1.2 History of Mobile Telecommunication Systems 1.2.1 From 1G to 3G 1.2.2 Third Generation Systems 1.3 The Need for LTE 1.3.1 The Growth of Mobile Data 1.3.2 Capacity of a Mobile Telecommunication System 1.3.3 Increasing the System Capacity 1.3.4 Additional Motivations 1.4 From UMTS to LTE 1.4.1 High Level Architecture of LTE 1.4.2 Long Term Evolution 1.4.3 System Architecture Evolution 1.5 From LTE to LTE-Advanced 1.5.1 The ITU Requirements for 4G 1.5.2 Requirements of LTE-Advanced 1.5.3 4G Communication Systems 1.5.4 The Meaning of 4G 1.6 The 3GPP Specifications for LTE References 2 System Architecture Evolution 2.1 Architecture of LTE 2.1.1 High Level Architecture 2.1.2 User Equipment 2.1.3 Evolved UMTS Terrestrial Radio Access Network 2.1.4 Evolved Packet Core 2.1.5 Roaming Architecture 2.1.6 Network Areas 2.1.7 Numbering, Addressing and Identification 2.2 Communication Protocols 2.2.1 Protocol Model 2.2.2 Air Interface Transport Protocols 2.2.3 Fixed Network Transport Protocols 2.2.4 User Plane Protocols 2.2.5 Signalling Protocols 2.3 Example Information Flows 2.3.1 Access Stratum Signalling 2.3.2 Non Access Stratum Signalling 2.3.3 Data Transport 2.4 Bearer Management 2.4.1 The EPS Bearer 2.4.2 Tunnelling Using GTP 2.4.3 Tunnelling Using GRE and PMIP 2.4.4 Signalling Radio Bearers 2.5 State Diagrams 2.5.1 EPS Mobility Management 2.5.2 EPS Connection Management 2.5.3 Radio Resource Control 2.6 Spectrum Allocation References 3 Digital Wireless Communications 3.1 Radio Transmission and Reception 3.1.1 Signal Transmission 3.1.2 Signal Reception 3.1.3 Channel Estimation 3.1.4 Multiple Access Techniques 3.1.5 FDD and TDD Modes 3.2 Multipath, Fading and Inter-Symbol Interference 3.2.1 Multipath and Fading 3.2.2 Inter-Symbol Interference 3.3 Error Management 3.3.1 Forward Error Correction 3.3.2 Automatic Repeat Request 3.3.3 Hybrid ARQ References 4 Orthogonal Frequency Division Multiple Access 4.1 Orthogonal Frequency Division Multiplexing 4.1.1 Reduction of Inter-Symbol Interference using OFDM 4.1.2 The OFDM Transmitter 4.1.3 Initial Block Diagram 65 4.2 OFDMA in a Mobile Cellular Network 4.2.1 Multiple Access 4.2.2 Fractional Frequency Re-Use 4.2.3 Channel Estimation 4.2.4 Cyclic Prefix Insertion 4.2.5 Use of the Frequency Domain 4.2.6 Choice of Sub-Carrier Spacing 4.3 Single Carrier Frequency Division Multiple Access 4.3.1 Power Variations from OFDMA 4.3.2 Block Diagram of SC-FDMA References 5 Multiple Antenna Techniques 5.1 Diversity Processing 5.1.1 Receive Diversity 5.1.2 Closed Loop Transmit Diversity 5.1.3 Open Loop Transmit Diversity 5.2 Spatial Multiplexing 5.2.1 Principles of Operation 5.2.2 Open Loop Spatial Multiplexing 5.2.3 Closed Loop Spatial Multiplexing 5.2.4 Matrix Representation 5.2.5 Implementation Issues 5.2.6 Multiple User MIMO 5.3 Beamforming 5.3.1 Principles of Operation 5.3.2 Beam Steering 5.3.3 Dual Layer Beamforming 5.3.4 Downlink Multiple User MIMO Revisited References 6 Architecture of the LTE Air Interface 6.1 Air Interface Protocol Stack 6.2 Logical, Transport and Physical Channels 6.2.1 Logical Channels 6.2.2 Transport Channels 6.2.3 Physical Data Channels 6.2.4 Control Information 6.2.5 Physical Control Channels 6.2.6 Physical Signals 6.2.7 Information Flows 6.3 The Resource Grid 6.3.1 Slot Structure 6.3.2 Frame Structure 6.3.3 Uplink Timing Advance 6.3.4 Resource Grid Structure 6.3.5 Bandwidth Options 6.4 Multiple Antenna Transmission 6.4.1 Downlink Antenna Ports 6.4.2 Downlink Transmission Modes 6.5 Resource Element Mapping 6.5.1 Downlink Resource Element Mapping 6.5.2 Uplink Resource Element Mapping References 7 Cell Acquisition 7.1 Acquisition Procedure 7.2 Synchronization Signals 7.2.1 Physical Cell Identity 7.2.2 Primary Synchronization Signal 7.2.3 Secondary Synchronization Signal 7.3 Downlink Reference Signals 7.4 Physical Broadcast Channel 7.5 Physical Control Format Indicator Channel 7.6 System Information 7.6.1 Organization of the System Information 7.6.2 Transmission and Reception of the System Information 7.7 Procedures After Acquisition References 8 Data Transmission and Reception 8.1 Data Transmission Procedures 8.1.1 Downlink Transmission and Reception 8.1.2 Uplink Transmission and Reception 8.1.3 Semi Persistent Scheduling 8.2 Transmission of Scheduling Messages on the PDCCH 8.2.1 Downlink Control Information 8.2.2 Resource Allocation 8.2.3 Example: DCI Format 1 8.2.4 Radio Network Temporary Identifiers 8.2.5 Transmission and Reception of the PDCCH 8.3 Data Transmission on the PDSCH and PUSCH 8.3.1 Transport Channel Processing 8.3.2 Physical Channel Processing</i&gt … (more)
- Edition:
- 1st
- Publisher Details:
- Wiley
- Publication Date:
- 2012
- Extent:
- 1 online resource (352 pages)
- Languages:
- English
- ISBNs:
- 9781119943532
- Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Physical Locations:
- British Library HMNTS - ELD.DS.508077
- Ingest File:
- 03_085.xml