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Details
Table of Contents
Preface
Acknowledgements
List of Abbreviations
1 Introduction
1.1 Architecture of a Mobile Telecommunication System
1.2 History of Mobile Telecommunications
1.3 Technologies for 5G
1.4 The 3GPP 5G System
1.5 Enhanced Mobile Broadband
1.6 Massive Machine-type Communications
1.7 Ultra-reliable Low-latency Communication
References
2 Architecture of the Core Network
2.1 The Evolved Packet Core
2.2 The 5G Core Network
2.3 Network Areas and Identities
2.4 State Diagrams
2.5 Network Slicing
2.6 Non-3GPP Access to the 5G Core
2.7 Signalling Protocols
2.8 The Hypertext Transfer Protocol
2.9 Example Network Function Services
References
3 Architecture of the Radio Access Network
3.1 The Evolved UMTS Terrestrial Radio Access Network
3.2 The Next-generation Node B
3.3 Architectural Options
3.4 Network Areas and Identities
3.5 RRC State Diagram
3.6 Signalling Protocols
3.7 Open Radio Access Networks
References
4 Spectrum, Antennas and Propagation
4.1 Radio Spectrum
4.2 Antennas and Propagation
4.3 Radio Propagation Issues for Millimetre Waves
4.4 Multipath, Fading and Coherence
References
5 Digital Signal Processing
5.1 Modulation and Demodulation
5.2 Radio Transmission in a Mobile Cellular Network
5.3 Orthogonal Frequency Division Multiple Access
5.4 Other Features of OFDMA
5.5 Signal-processing Issues for 5G
5.6 Error Management
References
6 Multiple-antenna Techniques
6.1 Beamforming
6.2 Beamforming at the gNB
6.3 Beamforming at the Mobile
6.4 Beam Management
6.5 Spatial Multiplexing
6.6 Multiple-user MIMO
6.7 Massive MIMO
6.8 Single-user MIMO
6.9 Multipoint Transmission and Reception
References
7 Architecture of the 5G New Radio
7.1 Air Interface Protocol Stack
7.2 Frequency Bands and Combinations
7.3 Frequency Domain Structure
7.4 Time Domain Structure
7.5 Multiple Antennas
7.6 Data Transmission
References
8 Cell Acquisition
8.1 Acquisition Procedure
8.2 Resource Mapping
8.3 Acquisition of the SS/PBCH Block
8.4 System Information
References
9 Random Access
9.1 Physical Random Access Channel
9.2 Random Access Procedure
9.3 Variations on the Random Access Procedure
References
10 Link Adaptation
10.1 CSI Reference Signals
10.2 Channel State Information
10.3 Physical Uplink Control Channel
10.4 Sounding
References
11 Data Transmission and Reception
11.1 Introduction
11.2 Transmission and Reception of the PDCCH
11.3 Scheduling Messages
11.4 Transmission and Reception of the PUSCH and PDSCH
11.5 Reference Signals
11.6 Hybrid ARQ Acknowledgements
11.7 Related Procedures
11.8 Performance of 5G
References
12 Air Interface Layer 2
12.1 Medium Access Control
12.2 Radio Link Control
12.3 Packet Data Convergence Protocol
12.4 Service Data Adaptation Protocol
References
13 Registration Procedures
13.1 Power-on Sequence
13.2 Network and Cell Selection
13.3 RRC Connection Establishment
13.4 Registration Procedure
13.5 Deregistration Procedure
References
14 Security
14.1 Security Principles
14.2 Network Access Security
14.3 Network Access Security Procedures
14.4 Network Domain Security
14.5 Service-based Architecture Domain Security
References
15 Session Management, Policy and Charging
15.1 Types of PDU Session
15.2 Quality of Service
15.3 Implementation of PDU Sessions
15.4 Policy and Charging Control Architecture
15.5 PDU Session Management Procedures
References
16 Mobility Management in RRC_CONNECTED
16.1 Introduction to RRC_CONNECTED
16.2 Measurement Configuration and Reporting
16.3 Handover Procedures
16.4 Dual Connectivity Procedures
16.5 State Transitions out of RRC_CONNECTED
References
17 Mobility Management in RRC_IDLE
17.1 Introduction to RRC_IDLE
17.2 Cell Reselection Procedures
17.3 Registration Updating
17.4 State Transitions out of RRC_IDLE
References
18 Mobility Management in RRC_INACTIVE
18.1 Introduction to RRC_INACTIVE
18.2 Mobility Management
18.3 State Transitions
18.4 Small Data Transmission in RRC_INACTIVE
References
19 Inter-operation with the Evolved Packet Core
19.1 Inter-operation Architectures
19.2 Registration Modes
19.3 Use of the Migration Architecture
19.4 Interworking Without N 26
19.5 Interworking with N 26
References
20 Foundations of 5G-Advanced
20.1 Location Services
20.2 Integrated Access and Backhaul
20.3 Use of Unlicensed Spectrum
20.4 Multicast and Broadcast Services
20.5 Non-terrestrial Networks
20.6 Network Automation, Artificial Intelligence and Machine Learning
20.7 Service Enabler Architecture Layer
References
21 The Internet of Things
21.1 Time-sensitive Communications
21.2 Non-public Networks
21.3 5G Virtual Networks
21.4 Edge Computing
21.5 Massive Machine-type Communications
21.6 Messaging Services
References
22 Vehicle Communications and the Sidelink
22.1 Vehicle-to-Everything (V2X) Communications
22.2 Uncrewed Aerial Vehicles
22.3 Proximity-based Services
22.4 Architecture of the Sidelink
22.5 Sidelink Timing Synchronization
22.6 Sidelink Transmission and Reception
22.7 Access Stratum Procedures for the Sidelink
22.8 Operation of Sidelink Communication
22.9 Operation of ProSe Direct Discovery
References
23 From 5G-Advanced to 6G
23.1 Release 19
23.2 6g
References
Further Reading
Index.
Acknowledgements
List of Abbreviations
1 Introduction
1.1 Architecture of a Mobile Telecommunication System
1.2 History of Mobile Telecommunications
1.3 Technologies for 5G
1.4 The 3GPP 5G System
1.5 Enhanced Mobile Broadband
1.6 Massive Machine-type Communications
1.7 Ultra-reliable Low-latency Communication
References
2 Architecture of the Core Network
2.1 The Evolved Packet Core
2.2 The 5G Core Network
2.3 Network Areas and Identities
2.4 State Diagrams
2.5 Network Slicing
2.6 Non-3GPP Access to the 5G Core
2.7 Signalling Protocols
2.8 The Hypertext Transfer Protocol
2.9 Example Network Function Services
References
3 Architecture of the Radio Access Network
3.1 The Evolved UMTS Terrestrial Radio Access Network
3.2 The Next-generation Node B
3.3 Architectural Options
3.4 Network Areas and Identities
3.5 RRC State Diagram
3.6 Signalling Protocols
3.7 Open Radio Access Networks
References
4 Spectrum, Antennas and Propagation
4.1 Radio Spectrum
4.2 Antennas and Propagation
4.3 Radio Propagation Issues for Millimetre Waves
4.4 Multipath, Fading and Coherence
References
5 Digital Signal Processing
5.1 Modulation and Demodulation
5.2 Radio Transmission in a Mobile Cellular Network
5.3 Orthogonal Frequency Division Multiple Access
5.4 Other Features of OFDMA
5.5 Signal-processing Issues for 5G
5.6 Error Management
References
6 Multiple-antenna Techniques
6.1 Beamforming
6.2 Beamforming at the gNB
6.3 Beamforming at the Mobile
6.4 Beam Management
6.5 Spatial Multiplexing
6.6 Multiple-user MIMO
6.7 Massive MIMO
6.8 Single-user MIMO
6.9 Multipoint Transmission and Reception
References
7 Architecture of the 5G New Radio
7.1 Air Interface Protocol Stack
7.2 Frequency Bands and Combinations
7.3 Frequency Domain Structure
7.4 Time Domain Structure
7.5 Multiple Antennas
7.6 Data Transmission
References
8 Cell Acquisition
8.1 Acquisition Procedure
8.2 Resource Mapping
8.3 Acquisition of the SS/PBCH Block
8.4 System Information
References
9 Random Access
9.1 Physical Random Access Channel
9.2 Random Access Procedure
9.3 Variations on the Random Access Procedure
References
10 Link Adaptation
10.1 CSI Reference Signals
10.2 Channel State Information
10.3 Physical Uplink Control Channel
10.4 Sounding
References
11 Data Transmission and Reception
11.1 Introduction
11.2 Transmission and Reception of the PDCCH
11.3 Scheduling Messages
11.4 Transmission and Reception of the PUSCH and PDSCH
11.5 Reference Signals
11.6 Hybrid ARQ Acknowledgements
11.7 Related Procedures
11.8 Performance of 5G
References
12 Air Interface Layer 2
12.1 Medium Access Control
12.2 Radio Link Control
12.3 Packet Data Convergence Protocol
12.4 Service Data Adaptation Protocol
References
13 Registration Procedures
13.1 Power-on Sequence
13.2 Network and Cell Selection
13.3 RRC Connection Establishment
13.4 Registration Procedure
13.5 Deregistration Procedure
References
14 Security
14.1 Security Principles
14.2 Network Access Security
14.3 Network Access Security Procedures
14.4 Network Domain Security
14.5 Service-based Architecture Domain Security
References
15 Session Management, Policy and Charging
15.1 Types of PDU Session
15.2 Quality of Service
15.3 Implementation of PDU Sessions
15.4 Policy and Charging Control Architecture
15.5 PDU Session Management Procedures
References
16 Mobility Management in RRC_CONNECTED
16.1 Introduction to RRC_CONNECTED
16.2 Measurement Configuration and Reporting
16.3 Handover Procedures
16.4 Dual Connectivity Procedures
16.5 State Transitions out of RRC_CONNECTED
References
17 Mobility Management in RRC_IDLE
17.1 Introduction to RRC_IDLE
17.2 Cell Reselection Procedures
17.3 Registration Updating
17.4 State Transitions out of RRC_IDLE
References
18 Mobility Management in RRC_INACTIVE
18.1 Introduction to RRC_INACTIVE
18.2 Mobility Management
18.3 State Transitions
18.4 Small Data Transmission in RRC_INACTIVE
References
19 Inter-operation with the Evolved Packet Core
19.1 Inter-operation Architectures
19.2 Registration Modes
19.3 Use of the Migration Architecture
19.4 Interworking Without N 26
19.5 Interworking with N 26
References
20 Foundations of 5G-Advanced
20.1 Location Services
20.2 Integrated Access and Backhaul
20.3 Use of Unlicensed Spectrum
20.4 Multicast and Broadcast Services
20.5 Non-terrestrial Networks
20.6 Network Automation, Artificial Intelligence and Machine Learning
20.7 Service Enabler Architecture Layer
References
21 The Internet of Things
21.1 Time-sensitive Communications
21.2 Non-public Networks
21.3 5G Virtual Networks
21.4 Edge Computing
21.5 Massive Machine-type Communications
21.6 Messaging Services
References
22 Vehicle Communications and the Sidelink
22.1 Vehicle-to-Everything (V2X) Communications
22.2 Uncrewed Aerial Vehicles
22.3 Proximity-based Services
22.4 Architecture of the Sidelink
22.5 Sidelink Timing Synchronization
22.6 Sidelink Transmission and Reception
22.7 Access Stratum Procedures for the Sidelink
22.8 Operation of Sidelink Communication
22.9 Operation of ProSe Direct Discovery
References
23 From 5G-Advanced to 6G
23.1 Release 19
23.2 6g
References
Further Reading
Index.