LTE for UMTS: OFDMA and SC-FDMA Based Radio AccessHarri Holma, Antti Toskala John Wiley & Sons, 1 abr 2009 - 450 páginas From the editors of the highly successful WCDMA for UMTS, this new book gives a complete and up-to-date overview of Long Term Evolution (LTE) in a systematic and clear manner. It starts with an in-depth explanation of the background and standardization process before moving on to examine the system architecture evolution (SAE). The basics of air interface modulation choices are introduced and key subjects such as 3GPP LTE physical layer and protocol solutions are described. Mobility aspects and radio resource management together with radio and end-to-end performance are assessed. The voice solution and voice capacity in LTE are also illustrated. Finally, the main differences between LTE TDD and FDD modes are examined and HSPA evolution in 3GPP Releases 7 and 8 is described. LTE for UMTS is one of the first books to provide a comprehensive guide to the standards and technologies of LTE. Key features of the book include:
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Índice
1 Introduction | 1 |
2 LTE Standardization | 13 |
3 System Architecture Based on 3GPP SAE | 23 |
4 Introduction to OFDMA and SCFDMA and to MIMO in LTE | 67 |
5 Physical Layer | 83 |
6 LTE Radio Protocols | 137 |
7 Mobility | 165 |
8 Radio Resource Management | 181 |
9 Performance | 213 |
10 Voice over IP VoIP | 259 |
11 Performance Requirements | 283 |
12 LTE TDD Mode | 367 |
13 HSPA Evolution | 399 |
417 | |
Otras ediciones - Ver todo
LTE for UMTS - OFDMA and SC-FDMA Based Radio Access Harri Holma,Antti Toskala No hay ninguna vista previa disponible - 2009 |
LTE for UMTS - OFDMA and SC-FDMA Based Radio Access Harri Holma,Antti Toskala No hay ninguna vista previa disponible - 2009 |
Términos y frases comunes
3GPP ACK/NACK allocation antenna architecture bandwidth base station bearer bit rate capacity carrier cell channel bandwidth coding configuration control channel core network cyclic prefix data rate downlink Duplex dynamic scheduler E-UTRAN eNodeB feedback frequency domain frequency domain scheduling functions handover HARQ HSDPA HSPA HSUPA illustrated in Figure inter-working interference kbps link adaptation link budget LTE TDD maximum Mbps measurement mobility mode modulation multiple noise non-3GPP OFDM OFDMA operation optimized P-GW packet scheduling parameters PCRF PDCCH PDCP physical layer PRBs protocol PUSCH QPSK RACH Radio Access receiver reference signals reselection resource blocks retransmissions RRC Connection S-GW SC-FDMA semi-persistent scheduler sequence SGSN shown in Figure specific spectral efficiency sub-carriers subframe symbols system bandwidth target throughput transmission bandwidth transmit TTI bundling uplink user plane UTRAN voice VoIP WCDMA