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LTE Signaling, Troubleshooting and Performance Measurement
Ralf KreherKarsten Gaenger
出版John Wiley & Sons, Incorporated, 2015
ISBN11187250939781118725092
URLhttp://books.google.com.hk/books?id=eq4YjwEACAAJ&hl=&source=gbs_api
註釋Cover -- Title Page -- Copyright -- Dedication -- Contents -- Author Biography -- Foreword -- Acknowledgments -- Chapter 1 Standards, Protocols, and Functions -- 1.1 LTE Standards and Standard Roadmap -- 1.2 LTE Radio Access Network Architecture -- 1.3 Network Elements and Functions -- 1.3.1 The eNodeB (eNB) -- 1.3.2 Mobility Management Entity (MME) -- 1.3.3 Serving Gateway (S-GW) -- 1.3.4 Packet Data Network Gateway (PDN-GW) -- 1.3.5 Interfaces and Reference Points -- 1.4 Area and Subscriber Identities -- 1.4.1 Domains and Strati -- 1.4.2 IMSI -- 1.4.3 LMSI, TMSI, P-TMSI, M-TMSI, and S-TMSI -- 1.4.4 GUTI -- 1.4.5 IMEI -- 1.4.6 RNTI -- 1.4.7 Location Area, Routing Area, Service Area, Tracking Area, and Cell Global Identity -- 1.4.8 Mapping between Temporary and Area Identities for EUTRAN and UTRAN/GERAN-Based Systems -- 1.4.9 GSM Base Station Identification -- 1.4.10 UTRA Base Station Identification -- 1.4.11 Numbering, Addressing, and Identification in the Session Initiation Protocol -- 1.4.12 Access Point Name -- 1.5 User Equipment -- 1.5.1 UE Categories -- 1.6 QoS Architecture -- 1.7 LTE Security -- 1.8 Radio Interface Basics -- 1.8.1 Duplex Methods -- 1.8.2 Multiple Access Methods -- 1.8.3 OFDM Principles and Modulation -- 1.8.4 Multiple Access in OFDM-OFDMA -- 1.8.5 Resource Blocks -- 1.8.6 Downlink Slot Structure -- 1.8.7 OFDM Scheduling on LTE DL -- 1.8.8 SC-FDMA Principles and Modulation -- 1.8.9 Scheduling on LTE UL -- 1.8.10 Uplink Slot Structure -- 1.8.11 Link Adaptation in LTE -- 1.8.12 Physical Channels in LTE -- 1.8.13 Transport Channels in LTE -- 1.8.14 Channel Mapping and Multiplexing -- 1.8.15 Initial UE Radio Access -- 1.8.16 UE Random Access -- 1.9 Hybrid ARQ -- 1.9.1 Synchronous HARQ in LTE Uplink -- 1.9.2 Asynchronous HARQ in LTE Downlink -- 1.9.3 HARQ Example -- 1.10 LTE Advanced -- 1.10.1 Increasing Spectral Efficiency