Single carrier FDMA a new air interface for long term evolution
Single Carrier Frequency Division Multiple Access (SC-FDMA) is a novel method of radio transmission under consideration for deployment in future cellular systems; specifically, in 3rd Generation Partnership Project Long Term Evolution (3GPP LTE) systems. SC-FDMA has drawn great attention from the co...
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| Other Authors: | |
| Format: | eBook |
| Language: | Inglés |
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Chichester, U.K. ; New York :
J. Wiley & Sons
2008.
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| Edition: | 1st edition |
| Series: | Wiley series on wireless communications and mobile computing.
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| Subjects: | |
| See on Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627710906719 |
Table of Contents:
- Preface
- 1 Introduction /
- 1.1 Generations /
- 1.2 Standards /
- 1.3 Cellular Standards Organizations 3GPP and 3GPP2 /
- 1.4 IEEE Standards /
- 1.5 Advanced Mobile Wireless Systems Based on FDMA /
- 1.6 Figures of Merit /
- 1.7 Frequency Division Technology in Broadband Wireless
- Systems /
- References
- 2 Channel Characteristics and Frequency Multiplexing
- 2.1 Introduction
- 2.2 Radio Channel Characteristics
- 2.3 Orthogonal Frequency Division Multiplexing
- 2.4 Single Carrier Modulation with Frequency Domain Equalization
- 2.5 Summary
- References
- 3 Single Carrier FDMA /
- 3.1 Introduction /
- 3.2 SC-FDMA Signal Processing /
- 3.3 Subcarrier Mapping /
- 3.4 Time Domain Representation of SC-FDMA Signals /
- 3.5 SC-FDMA and Orthogonal Frequency Division Multiple Access /
- 3.6SC-FDMA and CDMA with Frequency Domain Equalization /
- 3.7Single Carrier Code-Frequency Division Multiple Access (SC-CFDMA) /
- 3.8 Summary /
- References
- 4 SC-FDMA in 3GPP Long Term Evolution /
- 4.1 Introduction /
- 4.2 Protocol Layers and Channels /
- 4.3 Uplink Time and Frequency Structure /
- 4.4 Basic Uplink Physical Channel Processing /
- 4.5 Reference (Pilot) Signal Structure /
- 4.6 Summary /
- References /
- Appendix - List of 3GPP LTE Standards
- 5 Channel Dependent Scheduling /
- 5.1 Introduction /
- 5.2 SC-FDMA Performance Measures /
- 5.3 Scheduling Algorithms /
- 5.4 Channel Models Used in Scheduling Studies /
- 5.5 Channel-Dependent Scheduling Simulation Studies /
- 5.6 Summary /
- References
- 6 MIMO SC-FDMA /
- 6.1 Introduction /
- 6.2 Spatial Diversity and Spatial Multiplexing in MIMO Systems /
- 6.3 MIMO Channel /
- 6.4 SC-FDMA Transmit Eigen-Beamforming with Unitary Precoding /
- 6.5 SC-FDMA Spatial Diversity /
- 6.6 Summary /
- References
- 7 Peak Power Characteristics of an SC-FDMA Signal /
- 7.1 Introduction /
- 7.2 Peak Power Characteristics of a Single Carrier Signal /
- 7.3 PAPR of Single Antenna Transmission Signals /.
- 7.4 PAPR of Multiple Antenna Transmission Signals /
- 7.5 Peak Power Reduction by Symbol Amplitude Clipping /
- 7.6 Summary /
- References
- 8 Simulation of a SC-FDMA System Using Matlab(R) /
- 8.1 Introduction /
- 8.2 Link Level Simulation of SC/FDE /
- 8.3 Link Level Simulation of SC-FDMA /
- 8.4 Peak-to-Average Power Ratio Simulation of SC-FDMA /
- 8.5 Summary /
- References /
- Appendix - Simulation Codes
- Appendix A - Derivation of Time Domain Symbols of Localized FDMA and Distributed FDMA /
- A.1 Time Domain Symbols of LFDMA /
- A.2 Time Domain Symbols of DFDMA
- Appendix B - Derivations of the Upper Bounds in Chapter 7 /
- B.1 Derivation of Equations (9) and (10) in Chapter 7 /
- B.2 Derivations of Equations (13) and (14) in Chapter 7
- Appendix C - Deciphering the 3GPP LTE Specifications
- Appendix D - Abbreviations
- Index.
