Over 10 mio. titler Fri fragt ved køb over 499,- Hurtig levering 30 dages retur

4G, LTE-Advanced Pro and The Road to 5G

  • Format
  • Bog, hardback
  • Engelsk

Beskrivelse

The upcoming 5G specifications from 3GPP, to be available in 2018, will include LTE-Advanced Pro as well as a new 5G radio-access technology. This practical and very successful book, written by engineers working closely with 3GPP, gives insight into the newest technologies and standards adopted by 3GPP, with detailed explanations of the specific solutions chosen and their implementation in LTE, LTE-Advanced, and LTE-Advanced Pro, as well as providing a detailed description of the path to 5G and the associated underlying technologies. This edition has been thoroughly revised and updated to reflect the large extensions to LTE as introduced in 3GPP Releases 12 and 13 and the role of LTE in the upcoming 5G era. New to this edition includes updated content on: 4G and 5G Radio Access Spectrum for 4G and 5G Machine-Type Communication Device-to-Device Communication License-assisted Access Full-dimension MIMO Small-cell enhancements, eIMTA, FDD+TDD aggregation, dual connectivity Requirements on and general structure of 5G wireless access, addressing the existing and new usage scenarios for 5G Technical solutions for the new 5G radio-access technology The authors of this book all work at Ericsson Research and have been deeply involved in 3G and 4G development and standardization. They are leading experts in the field and are today actively contributing to the standardization of 4G and 5G within 3GPP.

Læs hele beskrivelsen
Detaljer
  • SprogEngelsk
  • Sidetal616
  • Udgivelsesdato01-08-2016
  • ISBN139780128045756
  • Forlag Academic Press Inc
  • FormatHardback
Størrelse og vægt
  • Vægt1460 g
  • coffee cup img
    10 cm
    book img
    19,1 cm
    23,5 cm

    Findes i disse kategorier...

    Se andre, der handler om...

    Comp Coexistence. Scheduling Radio frequency Standardization Regulation L� Public safety Prose ITU Broadcast EPC SAE Mobile broadband Blocking WRC 4G LTE Channel coding Massive MIMO IMT-2000 Relay Frequency bands Millimeter-wave Hybrid ARQ 5G Joint Transmission Multicast Networked Society LTE Advanced Relaying AAS Unlicensed spectrum 2G 3G Spectrum Dual connectivity RF 3GPP D2D NB-IoT Intermodulation Network slicing URLLC EVM 1G MTC ITU-R Device-to-device 5G waveform Access/backhaul integration ACLR Active antenna systems Adjacent channel leakage ratio Antenna ports Access link Backhaul Link Beyond mobile broadband Buffer-status reports Base station class Carrier Aggregation CSI process Coordinated link adaptation Discovery reference signal Downlink reference signals Cell search Channel-quality information (CQI)Channel-state information (CSI)CSI process Duplex schemes Discontinuous reception (DRX)Half-duplex FDD Dynamic point blanking FD-MIMO Downlink multi-antenna transmission Full-dimension MIMO Frame structure Component carrier Flexible duplex Cross-carrier scheduling Control-plane/user-plane separation Flexible system plane Critical MTC IMT-Advanced Downlink control signaling eIMTA Dynamic TDD Enhanced intercell interference coordination (eICIC)Heterogeneous deployments Intercell Interference Coordination Emission mask Error-vector magnitude Logical channels Machine-type communication Massive beam-forming MBMS License-assisted access Multiband base station Multi-site connectivity Multi-standard New 5G RAT Multi-point transmission Paging Narrowband internet-of-things Random access Power-headroom report In-sequence delivery Receiver sensitivity Resource Block RLC Self-scheduling Radio protocol architecture Scheduling request Resource element Retransmission Soft combining System information Spurious emissions Shared cell Sidelink IMT-2020 Special subframe Synchronization signals Secondary cell group Transport channels Uplink reference signals Massive MTC Uplink�downlink separation Single-cell point to multipoint MBSFN Small-cell on�off Transmission modes Ultra-reliable low-latency communication Uplink frequency hopping Uplink timing alignment Multi-point coordination LTE evolution Master cell group Segmentation and concatenation Proximity Services Uplink multi-antenna transmission Uplink sounding R-PDCCH Quasi-colocation Quasi-co-location Small-cell on/off User-plane aggregation SC-PTM Semi-persistent scheduling Spectrum flexibility Uplink control signaling Uplink power control Zero-power CSI-RS
    Machine Name: SAXO081