Details

Autor(en) / Beteiligte

• Dahlman, Erik,
• Parkvall, Stefan,
• Johan Skold,

Titel

4g, lte-advanced pro and the road to 5g

Auflage

Third edition

Ort / Verlag

Amsterdam, Netherlands : Elsevier

Erscheinungsjahr

2016

Link zum Volltext

• Elsevier Books AutoHoldings

Beschreibungen/Notizen

• Includes bibliographical references and index.
• Front Cover -- 4G, LTE-Advanced Pro and The Road to 5G -- 4G, LTE-Advanced Pro and The Road to 5G -- Copyright -- Contents -- Preface -- Acknowledgments -- Abbreviations and Acronyms -- 1 - INTRODUCTION -- 1.1 1G AND 2G-VOICE-CENTRIC TECHNOLOGIES -- 1.2 3G AND 4G-MOBILE BROADBAND -- 1.3 5G-BEYOND MOBILE BROADBAND-NETWORKED SOCIETY -- 1.4 OUTLINE -- 2 - SPECTRUM REGULATION AND STANDARDIZATION FROM 3G TO 5G -- 2.1 OVERVIEW OF STANDARDIZATION AND REGULATION -- 2.2 ITU-R ACTIVITIES FROM 3G TO 5G -- 2.2.1 THE ROLE OF ITU-R -- 2.2.2 IMT-2000 AND IMT-ADVANCED -- 2.2.3 IMT-2020 -- 2.3 SPECTRUM FOR MOBILE SYSTEMS -- 2.3.1 SPECTRUM DEFINED FOR IMT SYSTEMS BY THE ITU-R -- 2.3.2 FREQUENCY BANDS FOR LTE -- 2.3.3 NEW FREQUENCY BANDS -- 2.4 SPECTRUM FOR 5G -- 2.4.1 NEW FREQUENCY BANDS TO BE STUDIED BY WRC -- 2.4.2 RF EXPOSURE ABOVE 6GHZ -- 2.5 3GPP STANDARDIZATION -- 2.5.1 THE 3GPP PROCESS -- 2.5.2 SPECIFYING 5G IN 3GPP -- 3 - LTE RADIO ACCESS: AN OVERVIEW -- 3.1 LTE BASIC TECHNOLOGIES -- 3.1.1 TRANSMISSION SCHEME -- 3.1.2 CHANNEL-DEPENDENT SCHEDULING AND RATE ADAPTATION -- 3.1.3 INTER-CELL INTERFERENCE COORDINATION -- 3.1.4 MULTI-ANTENNA TRANSMISSION -- 3.1.5 SPECTRUM FLEXIBILITY -- 3.1.5.1 Flexibility in duplex arrangements -- 3.1.5.2 Bandwidth flexibility -- 3.1.6 MULTICAST AND BROADCAST SUPPORT -- 3.1.7 POSITIONING -- 3.2 LTE EVOLUTION -- 3.3 SPECTRUM FLEXIBILITY -- 3.3.1 CARRIER AGGREGATION -- 3.3.2 LICENSE-ASSISTED ACCESS -- 3.4 MULTI-ANTENNA ENHANCEMENTS -- 3.4.1 EXTENDED MULTI-ANTENNA TRANSMISSION -- 3.4.2 MULTI-POINT COORDINATION AND TRANSMISSION -- 3.4.3 ENHANCED CONTROL-CHANNEL STRUCTURE -- 3.5 DENSIFICATION, SMALL CELLS, AND HETEROGENEOUS DEPLOYMENTS -- 3.5.1 RELAYING -- 3.5.2 HETEROGENEOUS DEPLOYMENTS -- 3.5.3 SMALL-CELL ON-OFF -- 3.5.4 DUAL CONNECTIVITY -- 3.5.5 DYNAMIC TDD -- 3.5.6 WLAN INTERWORKING -- 3.6 DEVICE ENHANCEMENTS -- 3.7 NEW SCENARIOS.
• 3.7.1 DEVICE-TO-DEVICE COMMUNICATION -- 3.7.2 MACHINE-TYPE COMMUNICATION -- 3.8 DEVICE CAPABILITIES -- 4 - RADIO-INTERFACE ARCHITECTURE -- 4.1 OVERALL SYSTEM ARCHITECTURE -- 4.1.1 CORE NETWORK -- 4.1.2 RADIO-ACCESS NETWORK -- 4.2 RADIO PROTOCOL ARCHITECTURE -- 4.2.1 PACKET-DATA CONVERGENCE PROTOCOL -- 4.2.2 RADIO-LINK CONTROL -- 4.2.3 MEDIUM-ACCESS CONTROL -- 4.2.3.1 Logical Channels and Transport Channels -- 4.2.3.2 Scheduling -- 4.2.3.3 Hybrid ARQ with Soft Combining -- 4.2.4 PHYSICAL LAYER -- 4.3 CONTROL-PLANE PROTOCOLS -- 4.3.1 STATE MACHINE -- 5 - PHYSICAL TRANSMISSION RESOURCES -- 5.1 OVERALL TIME-FREQUENCY STRUCTURE -- 5.2 NORMAL SUBFRAMES AND MBSFN SUBFRAMES -- 5.3 ANTENNA PORTS -- 5.3.1 QUASI-CO-LOCATED ANTENNA PORTS -- 5.4 DUPLEX SCHEMES -- 5.4.1 FREQUENCY-DIVISION DUPLEX -- 5.4.2 TIME-DIVISION DUPLEX -- 5.4.3 LTE AND TD-SCDMA COEXISTENCE -- 5.4.4 LICENSE-ASSISTED ACCESS -- 5.5 CARRIER AGGREGATION -- 5.6 FREQUENCY-DOMAIN LOCATION OF LTE CARRIERS -- 6 - DOWNLINK PHYSICAL-LAYER PROCESSING -- 6.1 TRANSPORT-CHANNEL PROCESSING -- 6.1.1 PROCESSING STEPS -- 6.1.1.1 CRC Insertion per Transport Block -- 6.1.1.2 Code-Block Segmentation and per-Code-Block CRC Insertion -- 6.1.1.3 Channel Coding -- 6.1.1.4 Rate Matching and Physical-Layer Hybrid-ARQ Functionality -- 6.1.1.5 Bit-Level Scrambling -- 6.1.1.6 Data Modulation -- 6.1.1.7 Antenna Mapping -- 6.1.1.8 Resource-Block Mapping -- 6.1.2 LOCALIZED AND DISTRIBUTED RESOURCE MAPPING -- 6.2 DOWNLINK REFERENCE SIGNALS -- 6.2.1 CELL-SPECIFIC REFERENCE SIGNALS -- 6.2.1.1 Structure of a Single Reference Signal -- 6.2.1.2 Multiple Reference Signals -- 6.2.2 DEMODULATION REFERENCE SIGNALS -- 6.2.2.1 DM-RS for PDSCH -- 6.2.2.2 DM-RS for EPDCCH -- 6.2.3 CSI REFERENCE SIGNALS -- 6.2.3.1 CSI-RS Structure -- 6.2.3.2 CSI-RS and PDSCH Mapping -- 6.2.3.3 Zero-Power CSI-RS -- 6.2.4 QUASI-COLOCATION RELATIONS.
• 6.3 MULTI-ANTENNA TRANSMISSION -- 6.3.1 TRANSMISSION MODES -- 6.3.2 TRANSMIT DIVERSITY -- 6.3.2.1 Transmit Diversity for Two Antenna Ports -- 6.3.2.2 Transmit Diversity for Four Antenna Ports -- 6.3.3 CODEBOOK-BASED PRECODING -- 6.3.3.1 Closed-Loop Precoding -- 6.3.3.2 Open-Loop Precoding -- 6.3.4 NON-CODEBOOK-BASED PRECODING -- 6.3.5 DOWNLINK MU-MIMO -- 6.3.5.1 MU-MIMO within Transmission Modes 8/9 -- 6.3.5.2 MU-MIMO Based on CRS -- 6.4 DOWNLINK L1/L2 CONTROL SIGNALING -- 6.4.1 PHYSICAL CONTROL FORMAT INDICATOR CHANNEL -- 6.4.2 PHYSICAL HYBRID-ARQ INDICATOR CHANNEL -- 6.4.3 PHYSICAL DOWNLINK CONTROL CHANNEL -- 6.4.4 ENHANCED PHYSICAL DOWNLINK CONTROL CHANNEL -- 6.4.5 BLIND DECODING OF PDCCHS AND EPDCCHS -- 6.4.6 DOWNLINK SCHEDULING ASSIGNMENTS -- 6.4.6.1 Signaling of Downlink Resource-Block Allocations -- 6.4.6.2 Signaling of Transport-Block Sizes -- 6.4.7 UPLINK SCHEDULING GRANTS -- 6.4.7.1 Signaling of Uplink Resource-Block Allocations -- 6.4.8 POWER-CONTROL COMMANDS -- 7 - UPLINK PHYSICAL-LAYER PROCESSING -- 7.1 TRANSPORT-CHANNEL PROCESSING -- 7.1.1 PROCESSING STEPS -- 7.1.2 MAPPING TO THE PHYSICAL RESOURCE -- 7.1.3 PUSCH FREQUENCY HOPPING -- 7.1.3.1 Hopping Based on Cell-Specific Hopping/Mirroring Patterns -- 7.1.3.2 Hopping Based on Explicit Hopping Information -- 7.2 UPLINK REFERENCE SIGNALS -- 7.2.1 DEMODULATION REFERENCE SIGNALS -- 7.2.1.1 Time-Frequency Structure -- 7.2.1.2 Base Sequences -- 7.2.1.3 Phase-Rotation and Orthogonal Cover Codes -- 7.2.1.4 Base-Sequence Assignment -- 7.2.1.5 Assignment of Phase Rotation and OCC -- 7.2.2 SOUNDING REFERENCE SIGNALS -- 7.2.2.1 Periodic SRS Transmission -- 7.2.2.2 Aperiodic SRS Transmission -- 7.3 UPLINK MULTI-ANTENNA TRANSMISSION -- 7.3.1 PRECODER-BASED MULTI-ANTENNA TRANSMISSION FOR PUSCH -- 7.3.2 UPLINK MULTI-USER MIMO -- 7.3.3 PUCCH TRANSMIT DIVERSITY -- 7.4 UPLINK L1/L2 CONTROL SIGNALING.
• 7.4.1 BASIC PUCCH STRUCTURE -- 7.4.1.1 PUCCH Format 1 -- 7.4.1.2 PUCCH Format 2 -- 7.4.1.3 PUCCH Format 3 -- 7.4.1.4 PUCCH Format 4 -- 7.4.1.5 PUCCH Format 5 -- 7.4.1.6 Resource-Block Mapping for PUCCH -- 7.4.2 UPLINK CONTROL SIGNALING ON PUCCH -- 7.4.2.1 Hybrid-ARQ Acknowledgments -- 7.4.2.2 Scheduling Request -- 7.4.2.3 Hybrid-ARQ Acknowledgments and Scheduling Request -- 7.4.2.4 Channel-State Information -- 7.4.2.5 Hybrid-ARQ Acknowledgments and CSI -- 7.4.2.6 Scheduling Request and CSI -- 7.4.2.7 Hybrid-ARQ Acknowledgments, CSI and Scheduling Request -- 7.4.3 UPLINK L1/L2 CONTROL SIGNALING ON PUSCH -- 7.5 UPLINK POWER CONTROL -- 7.5.1 UPLINK POWER CONTROL: SOME BASIC RULES -- 7.5.2 POWER CONTROL FOR PUCCH -- 7.5.3 POWER CONTROL FOR PUSCH -- 7.5.4 POWER CONTROL FOR SRS -- 7.6 UPLINK TIMING ALIGNMENT -- 8 - RETRANSMISSION PROTOCOLS -- 8.1 HYBRID ARQ WITH SOFT COMBINING -- 8.1.1 DOWNLINK HYBRID ARQ -- 8.1.2 UPLINK HYBRID ARQ -- 8.1.3 HYBRID-ARQ TIMING -- 8.1.3.1 Hybrid-ARQ Timing for FDD -- 8.1.3.2 Hybrid-ARQ Timing for TDD -- 8.2 RADIO-LINK CONTROL -- 8.2.1 SEGMENTATION, CONCATENATION, AND REASSEMBLY OF RLC SDUS -- 8.2.2 RLC RETRANSMISSION -- 8.2.3 IN-SEQUENCE DELIVERY -- 8.2.4 RLC OPERATION -- 9 - SCHEDULING AND RATE ADAPTATION -- 9.1 SCHEDULING STRATEGIES -- 9.2 DOWNLINK SCHEDULING -- 9.3 UPLINK SCHEDULING -- 9.3.1 UPLINK PRIORITY HANDLING -- 9.3.2 SCHEDULING REQUESTS -- 9.3.3 BUFFER STATUS REPORTS -- 9.3.4 POWER HEADROOM REPORTS -- 9.4 TIMING OF SCHEDULING ASSIGNMENTS/GRANTS -- 9.4.1 DOWNLINK SCHEDULING TIMING -- 9.4.2 UPLINK SCHEDULING TIMING -- 9.5 SEMI-PERSISTENT SCHEDULING -- 9.6 SCHEDULING FOR HALF-DUPLEX FDD -- 9.7 DISCONTINUOUS RECEPTION -- 10 - CHANNEL-STATE INFORMATION AND FULL-DIMENSION MIMO -- 10.1 CSI REPORTS -- 10.2 PERIODIC AND APERIODIC CSI REPORTS -- 10.2.1 APERIODIC CSI REPORTS -- 10.2.2 PERIODIC CSI REPORTS.
• 10.3 INTERFERENCE ESTIMATION -- 10.4 CHANNEL-QUALITY INDICATOR -- 10.5 RANK INDICATOR AND PRECODER MATRIX INDICATOR -- 10.6 FULL-DIMENSION MIMO -- 10.6.1 CSI FEEDBACK FOR MASSIVE ANTENNA ARRANGEMENTS -- 10.6.2 CSI REPORTING CLASS A -- 10.6.3 CSI REPORTING CLASS B -- 11 - ACCESS PROCEDURES -- 11.1 ACQUISITION AND CELL SEARCH -- 11.1.1 OVERVIEW OF LTE CELL SEARCH -- 11.1.2 PSS STRUCTURE -- 11.1.3 SSS STRUCTURE -- 11.2 SYSTEM INFORMATION -- 11.2.1 MIB AND BCH TRANSMISSION -- 11.2.2 SYSTEM-INFORMATION BLOCKS -- 11.3 RANDOM ACCESS -- 11.3.1 STEP 1: RANDOM-ACCESS PREAMBLE TRANSMISSION -- 11.3.1.1 PRACH Time-Frequency Resources -- 11.3.1.2 Preamble Structure and Sequence Selection -- 11.3.1.3 PRACH Power Setting -- 11.3.1.4 Preamble Sequence Generation -- 11.3.1.5 Preamble Detection -- 11.3.2 STEP 2: RANDOM-ACCESS RESPONSE -- 11.3.3 STEP 3: DEVICE IDENTIFICATION -- 11.3.4 STEP 4: CONTENTION RESOLUTION -- 11.4 PAGING -- 12 - CARRIER AGGREGATION -- 12.1 OVERALL PROTOCOL STRUCTURE -- 12.2 PRIMARY AND SECONDARY COMPONENT CARRIERS -- 12.3 SELF-SCHEDULING AND CROSS-CARRIER SCHEDULING -- 12.3.1 SCHEDULING TIMING FOR AGGREGATION OF FDD CARRIERS -- 12.3.2 SCHEDULING TIMING FOR AGGREGATION OF TDD CARRIERS -- 12.3.3 SCHEDULING TIMING FOR AGGREGATION OF FDD AND TDD CARRIERS -- 12.4 DRX AND COMPONENT-CARRIER DEACTIVATION -- 12.5 DOWNLINK CONTROL SIGNALING -- 12.5.1 PCFICH -- 12.5.2 PHICH -- 12.5.3 PDCCH AND EPDCCH -- 12.6 UPLINK CONTROL SIGNALING -- 12.6.1 HYBRID-ARQ ACKNOWLEDGMENTS ON PUCCH -- 12.6.2 CSI REPORTING ON PUCCH -- 12.6.3 CONTROL SIGNALING ON PUSCH -- 12.7 TIMING ADVANCE AND CARRIER AGGREGATION -- 13 - MULTI-POINT COORDINATION AND TRANSMISSION -- 13.1 INTER-CELL INTERFERENCE COORDINATION -- 13.2 MULTI-POINT COORDINATION/TRANSMISSION -- 13.2.1 MULTI-POINT COORDINATION -- 13.2.1.1 Coordinated Link Adaptation -- 13.2.1.2 Coordinated Scheduling.
• 13.2.2 MULTI-POINT TRANSMISSION.
• Description based on print version record.