MIMO from theory to implementation
Foreword from Arogyaswami Paulraj, Professor (Emeritus), Stanford University (USA) * The first book to show how MIMO principles can be implemented in today's mobile broadband networks and components * Explains and solves some of the practical difficulties that arise in designing and impleme...
| Otros Autores: | , , |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Burlington, MA :
Academic Press
2010.
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| Edición: | 1st edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009628196506719 |
Tabla de Contenidos:
- Front cover; MIMO; Copyright page; Table of contents; Foreword; Preface; About the Editors, Authors and Contributors; Introduction; Part I: MIMO Fundamentals; Chapter 1. A Short Introduction to MIMO Information Theory; 1.1. The Shannon-Wiener Legacy: From 1948 to 2008; 1.2. Preliminaries; 1.3. Information Theoretic Aspects; 1.4. Signal Processing Aspects; 1.5. Wiener vs. Shannon: An Ever Closer Union; Chapter 2. MIMO Propagation and Channel Modeling; 2.1. Introduction; 2.2. Model Classification; 2.3. Parameters of the MIMO Radio Channel; 2.4. CSI and Channel Randomness
- 2.5. What Kind of Correlation in MIMO?2.6. MIMO Measurements; 2.7. What Makes a Good Channel Model?; 2.8. Examples of MIMO Radio Channel Models; 2.9. Some Conclusions; Acknowledgment; Chapter 3. Space Time Codes and MIMO Transmission; 3.1. Introduction; 3.2. Diversity and Multiplexing Gain; 3.3. Theory of Space-time Coding; 3.4. Space-time Codes; 3.5. Spatial Multiplexing; 3.6. Precoding; 3.7. MIMO in Current and Emerging Standards; 3.8. Summary; Chapter 4. Interference Functions - A Mathematical Framework for MIMO Interference Networks; 4.1. Multiuser Channels
- 4.2. A General Framework for Optimizing Interference Networks4.3. Joint Interference Mitigation and Resource Allocation; 4.4. Implementation Aspects; Part II: Implementation; Chapter 5. Advanced Transmitter and Receiver Design; 5.1. Introduction; 5.2. Turbo Equalization; 5.3. Turbo Equalization on Frequency-Selective MIMO Channels; 5.4. Turbo Synchronization; 5.5. Turbo Synchronization on Frequency-Selective MIMO Channels; Chapter 6. Implementing Scalable List Detectors for MIMO-SDM in LTE; 6.1. Introduction; 6.2. Radius-Based Detector Algorithm; 6.3. Mapping of the Radius-Based Detector
- 6.4. SSFE Detector6.5. Conclusions; Chapter 7. IEEE 802.11n Implementation; 7.1. IEEE 802.11n PHY Layer Introduction; 7.2. IEEE 802.11n Transmitter Part; 7.3. IEEE 802.11n Receiver Part; 7.4. Simulation Results; 7.5. Conclusion; Chapter 8. WiMAX Implementation; 8.1. Introduction; 8.2. Existing Schemes in IEEE 802.16e; 8.3. MIMO Candidates for IEEE 802.16m; 8.4. UL-MIMO Schemes in WiMAX Systems; 8.5. Cyclic Delay Diversity (CDD); 8.6. Tile-Switched Diversity (TSD); 8.7. Performance; 8.8. Potential Impacts on Architecture; 8.9. Conclusions; Chapter 9. LTE and LTE-Advanced
- 9.1. Transmission Structure9.2. LTE MIMO Schemes; 9.3. LTE-Advanced MIMO Schemes; Chapter 10. Multiple Antenna Terminals; 10.1. Size-Performance Trade Off; 10.2. Performance of Compact Design; 10.3. Compact Design Techniques - Antenna Decoupling; 10.4. Compact Design Techniques - Antenna/Channel Matching; 10.5. Related Issues and Future Outlook; 10.6. Conclusions; 10.7. Acknowledgment; Chapter 11. Conclusion: MIMO Roadmaps; 11.1. Systems and Roadmaps; 11.2. A Bird's Eye View on Current and Future Prospects for MIMO; List of Symbols; List of Acronyms; References; Index
