Introduction to 4G Mobile Communications
[BOOK DESCRIPTION]
Long Term Evolution (LTE) was originally an internal 3GPP name for a program to enhance the capabilities of 3G radio access networks. The nickname has now evolved to become synonymous with 4G. This book concentrates on 4G systems, also known as LTE-Advanced. Telecommunications engineers and students are provided with a history of these systems, along with an overview of a mobile telecommunications system. The overview addresses the components in the system as well as their function. This resource guides telecommunications engineers though many important aspects of 4G including the air interface physical layer, Radio Access Networks, and 3GPP standardization, to name a few.
[TABLE OF CONTENTS]
Acknowledgments xi
1 Introduction 1 (4)
2 History of Mobile Telecommunications 5 (24)
2.1 First Generation 5 (4)
2.1.1 Introduction 5 (1)
2.1.2 AMPS 6 (1)
2.1.3 TACS 7 (1)
2.1.4 NMT 7 (1)
2.1.5 C-NETZ 8 (1)
2.1.6 Radiocom2000 8 (1)
2.1.7 Japanese Systems 8 (1)
2.1.8 Summary 9 (1)
2.2 Second Generation 9 (8)
2.2.1 Introduction 9 (1)
2.2.2 Global System for Mobile 10 (3)
Communication (GSM)
2.2.3 Digital Advanced Mobile Phone 13 (1)
System (D-AMPS)
2.2.4 Code Division Multiple Access 14 (2)
(IS-95 CDMA)
2.2.5 Personal Digital Cellular (PDC) 16 (1)
2.2.6 Integrated Dispatch Enhanced 16 (1)
Network (iDEN)
2.2.7 Terrestrial Trunked Radio (TETRA) 17 (1)
2.3 Third Generation 17 (9)
2.3.1 Introduction 17 (1)
2.3.2 3GPP 18 (4)
2.3.3 3GPP2 22 (4)
2.4 Conclusions 26 (3)
References 28 (1)
3 Overview of a Modern 4G 29 (18)
Telecommunications System
3.1 Introduction 29 (1)
3.2 LTE-A System Architecture 29 (1)
3.3 LTE RAN 30 (1)
3.4 OFDM Air Interface 31 (2)
3.5 Evolved Packet Core 33 (1)
3.6 LTE Requirements 33 (7)
3.7 LTE-Advanced 40 (4)
3.8 LTE-A in Release 11 44 (3)
References 45 (2)
4 OFDMA 47 (12)
4.1 Introduction 47 (4)
4.2 OFDM Principles 51 (5)
4.3 LTE Uplink---SC-FDMA 56 (1)
4.4 Summary of OFDMA 57 (2)
References 58 (1)
5 Air Interface: Physical Layer 59 (30)
5.1 Introduction 59 (1)
5.2 Physical Layer---General 60 (2)
5.3 Physical-Layer Processing 62 (14)
5.3.1 CRC Insertion 63 (1)
5.3.2 Channel Coding 64 (4)
5.3.3 Physical-Layer Hybrid-ARQ 68 (1)
Processing
5.3.4 Rate Matching and Channel 69 (1)
Interleaving
5.3.5 Scrambling 70 (1)
5.3.6 Modulation 71 (4)
5.3.7 Layer Mapping and Precoding 75 (1)
5.3.8 Mapping to Assigned Resources and 76 (1)
Antenna Ports
5.4 Physical Channels in LTE-A 76 (5)
5.4.1 Downlink Physical Channels 77 (3)
5.4.2 Uplink Physical Channels 80 (1)
5.5 Physical Layer Signals 81 (5)
5.5.1 Downlink Signals 81 (4)
5.5.2 Uplink Signals 85 (1)
5.6 Summary 86 (3)
References 86 (3)
6 Air Interface: Protocol Stack 89 (36)
6.1 Introduction 89 (1)
6.2 Medium Access Control (MAC) 90 (9)
6.2.1 MAC---General 90 (6)
6.2.2 Transport Channels 96 (3)
6.3 Radio Link Control (RLC) 99 (6)
6.3.1 RLC---General 99 (2)
6.3.2 RLC Functions 101(1)
6.3.3 Logical Channels 102(3)
6.4 Packet Data Convergence Protocol 105(3)
(PDCP)
6.5 Radio Resource Control (RRC) 108(17)
6.5.1 Introduction 108(1)
6.5.2 UE States 108(2)
6.5.3 RRC Functions 110(13)
References 123(2)
7 Radio Access Network 125(22)
7.1 Introduction 125(1)
7.2 E-UTRAN Architecture 125(2)
7.3 eNodeB 127(7)
7.3.1 eNodeB Introduction 127(1)
7.3.2 eNodeB Functionality 128(6)
7.4 Home eNodeB 134(8)
7.4.1 Introduction 134(2)
7.4.2 Closed Subscriber Group (CSG) 136(1)
7.4.3 HeNB Mobility 137(1)
7.4.4 HeNB Gateway 137(1)
7.4.5 Traffic Offloading 137(5)
7.5 Relay Node 142(5)
References 145(2)
8 Core Network: Evolved Packet Core 147(22)
8.1 Introduction 147(1)
8.2 Architecture 148(7)
8.2.1 Mobility Management Entity 148(2)
8.2.2 Serving GW 150(1)
8.2.3 Packet Data Network Gateway 150(1)
8.2.4 Home Subscriber Server 151(1)
8.2.5 Evolved Serving Mobile Location 151(4)
Center
8.2.6 Gateway Mobile Location Center 155(1)
8.2.7 Policy Control and Charging Rules 155(1)
Function
8.3 EPC Interfaces and Protocols 155(14)
8.3.1 EPC Control Plane 155(5)
8.3.2 EPC User Plane 160(2)
8.3.3 Summary of EPC Interfaces 162(4)
References 166(3)
9 Procedures 169(26)
9.1 Introduction 169(1)
9.2 Cell Search 169(2)
9.3 Random Access 171(3)
9.4 Tracking Area Update 174(5)
9.5 Initial Context Setup 179(3)
9.6 Handover (X2 interface) 182(4)
9.7 CSG Inbound HO 186(3)
9.8 S1 Release Procedure 189(2)
9.9 Dedicated Bearer Activation 191(4)
References 193(2)
10 Specifications 195(20)
10.1 Introduction 195(1)
10.2 Internal Structure 195(7)
10.2.1 TSG RAN 197(2)
10.2.2 TSG SA 199(1)
10.2.3 TSG CT 200(1)
10.2.4 TSGGERAN 201(1)
10.2.5 Mobile Competence Center (MCC) 202(1)
10.3 Standardization Process 202(8)
10.3.1 Introduction 202(1)
10.3.2 Work Items 202(2)
10.3.3 Version Numbering 204(1)
10.3.4 Releases 205(4)
10.3.5 Development Cycle 209(1)
10.4 Specification Numbering 210(1)
10.5 Backwards Compatibility 211(1)
10.6 E-UTRAN Specifications 212(3)
References 214(1)
11 LTE-A Features 215(28)
11.1 Energy Saving 215(4)
11.2 MIMO 219(5)
11.2.1 MIMO Overview 219(2)
11.2.2 Downlink MIMO 221(3)
11.2.3 Uplink MIMO 224(1)
11.3 Relays 224(2)
11.4 Carrier Aggregation 226(3)
11.5 Enhanced Intercell Interference 229(4)
Coordination
11.6 Evolved Multimedia Broadcast 233(2)
Multicast Service
11.7 Self-Organizing Networks 235(1)
11.7.1 Automatic Neighbour Relations 235(1)
(ANR)
11.7.2 Mobililty Load Balancing (MLB) 235(1)
11.7.3 Mobility Robustness Optimization 235(1)
(MRO)
11.7.4 Coverage and Capacity 236(1)
Optimization
11.7.5 RACH Optimization Function 236(1)
11.7.6 Coordination Between Various SON 236(1)
Functions
11.8 Coordinated Multipoint 236(2)
Transmission/Reception
11.8.1 Downlink CoMP 237(1)
11.8.2 Uplink CoMP 238(1)
11.9 LTE and Voice 238(5)
References 241(2)
12 Future Developments 243(26)
12.1 Introduction 243(1)
12.2 Evolving LTE-A 244(13)
12.2.1 Proximity Services 244(4)
12.2.2 Machine-Type Communications 248(3)
12.2.3 Mobile Relays 251(4)
12.2.4 Heterogeneous Networks 255(2)
12.3 The Fifth Generation 257(8)
12.3.1 Introduction 257(1)
12.3.2 New Air Interface 258(1)
12.3.3 Bandwidth 259(2)
12.3.4 Network Architecture 261(1)
12.3.5 Multiple Antennas 262(1)
12.3.6 Support for M2M Communications 263(1)
12.3.7 Other Improvements 264(1)
12.4 METIS Project 265(4)
References 268(1)
Appendix: LTE and LTE-A Specifications 269(8)
About the Author 277(2)
Index 279
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