4G LTE/LTE-advanced for mobile broadband
This book reflects the ongoing success of LTE throughout the world and focuses on LTE with full updates including LTE-Advanced (Release 11) to provide a complete picture of the LTE system. Overviews and detailed explanations are given for the latest LTE standards for radio interface architecture, th...
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| Otros Autores: | , |
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Oxford :
Academic Press
2014.
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| Edición: | 2nd ed |
| Colección: | Gale eBooks
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| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627691906719 |
Tabla de Contenidos:
- Front Cover; 4G: LTE/LTE-Advanced for Mobile Broadband; Copyright; Contents; Preface; Acknowledgments; Abbreviations and Acronyms; Chapter 1 - Background of LTE; 1.1 Introduction; 1.2 Evolution of mobile systems before LTE; 1.3 ITU activities; 1.4 Drivers for LTE and LTE-Advanced; 1.5 Standardization of LTE; Chapter 2 - High Data Rates in Mobile Communication; 2.1 High data rates: fundamental constraints; 2.2 Higher data rates within a limited bandwidth: higher-order modulation; 2.3 Wider bandwidth including multi-carrier transmission; Chapter 3 - OFDM Transmission
- 3.1 Basic principles of OFDM3.2 OFDM demodulation; 3.3 OFDM implementation using IFFT/FFT processing; 3.4 Cyclic-prefix insertion; 3.5 Frequency-domain model of OFDM transmission; 3.6 Channel estimation and reference symbols; 3.7 Frequency diversity with OFDM: importance of channel coding; 3.8 Selection of basic OFDM parameters; 3.9 Variations in instantaneous transmission power; 3.10 OFDM as a user-multiplexing and multiple-access scheme; 3.11 Multi-cell broadcast/multicast transmission and OFDM; Chapter 4 - Wider-Band "Single-Carrier" Transmission
- 4.1 Equalization against radio-channel frequency selectivity4.2 Uplink FDMA with flexible bandwidth assignment; 4.3 DFT-spread OFDM; Chapter 5 - Multi-Antenna Techniques; 5.1 Multi-antenna configurations; 5.2 Benefits of multi-antenna techniques; 5.3 Multiple receive antennas; 5.4 Multiple transmit antennas; 5.5 Spatial multiplexing; Chapter 6 - Scheduling, Link Adaptation, and Hybrid ARQ; 6.1 Link adaptation: power and rate control; 6.2 Channel-dependent scheduling; 6.3 Advanced retransmission schemes; 6.4 Hybrid ARQ with soft combining; Chapter 7 - LTE Radio Access: An Overview
- 7.1 Basic principles7.2 LTE release 9; 7.3 LTE release 10 and IMT-advanced; 7.4 Release 11; 7.5 Terminal capabilities; Chapter 8 - Radio-Interface Architecture; 8.1 Overall system architecture; 8.2 Radio protocol architecture; 8.3 Control-plane protocols; Chapter 9 - Physical Transmission Resources; 9.1 Overall time-frequency structure; 9.2 Normal subframes and MBSFN subframes; 9.3 Antenna ports; 9.4 Duplex schemes; 9.5 Carrier aggregation; 9.6 Frequency-domain location of LTE carriers; Chapter 10 - Downlink Physical-Layer Processing; 10.1 Transport-channel processing
- 10.2 Downlink reference signals10.3 Multi-antenna transmission; 10.4 Downlink L1/L2 control signaling; Chapter 11 - Uplink Physical-Layer Processing; 11.1 Transport-channel processing; 11.2 Uplink reference signals; 11.3 Uplink multi-antenna transmission; 11.4 Uplink L1/L2 control signaling; 11.5 Uplink power control; 11.6 Uplink timing alignment; Chapter 12 - Retransmission Protocols; 12.1 Hybrid ARQ with soft combining; 12.2 Radio-link control; Chapter 13 - Scheduling and Rate Adaptation; 13.1 Downlink scheduling; 13.2 Uplink scheduling; 13.3 Timing of scheduling assignments/grants
- 13.4 Semi-persistent scheduling
