| Description |
1 online resource (xvi, 314 pages) |
| Contents |
MIMO Communication for Cellular Networks; Preface; Notation; Contents; Chapter 1 Introduction; 1.1 Overview of MIMO fundamentals; 1.1.1 MIMO channel models; Single-user MIMO channel; Multiuser MIMO channels; 1.1.2 Single-user capacity metrics; 1.1.2.1 SISO capacity; 1.1.2.2 SIMO capacity; 1.1.2.3 MISO capacity; 1.1.2.4 SU-MIMO capacity; 1.1.3 Multiuser capacity metrics; Multiple-access channel capacity region; Broadcast channel capacity region; 1.1.4 MIMO performance gains; Capacity at high SNR; Capacity at low SNR; 1.2 Overview of cellular networks; 1.2.1 System characteristics |
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Cell sites and sectorizationMultiple access; Scheduling and resource allocation; 1.2.2 Co-channel interference; SINR and geometry; Impact of interference on capacity; Interference mitigation techniques; 1.3 Overview of the book; Chapter 2 Single-user MIMO; 2.1 Channel model; 2.1.1 Analytical channel models; 2.1.1.1 Kronecker MIMO channel model; 2.1.1.2 Single-bounce analytical MIMO channel model; 2.1.1.3 Double-bounce and keyhole MIMO analytical channel models; 2.1.1.4 The Weichselberger MIMO analytical channel model; 2.1.1.5 The Ricean MIMO channel model; 2.1.2 Physical channel models |
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2.1.3 Other extensions2.2 Single-user MIMO capacity; 2.2.1 Capacity for fixed channels; 2.2.1.1 Optimal input covariance; 2.2.2 Performance gains; 2.2.2.1 Low SNR; 2.2.2.2 High SNR; 2.2.2.3 Large number of antennas; 2.2.3 Performance comparisons; 2.3 Transceiver techniques; 2.3.1 Linear receivers; 2.3.2 MMSE-SIC; 2.3.3 V-BLAST; 2.3.4 D-BLAST; 2.3.5 Closed-loop MIMO; 2.3.6 Space-time coding; 2.3.7 Codebook precoding; 2.3.7.1 Single-antenna receiver, N = 1; 2.3.7.2 Multi-antenna receiver, N>1; 2.4 Practical considerations; 2.4.1 CSI estimation; 2.4.2 Spatial richness; 2.5 Summary |
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Chapter 3 Multiuser MIMO3.1 Channel models; 3.2 Multiple-access channel (MAC) capacity region; 3.2.1 Single-antenna transmitters (N = 1); 3.2.2 Multiple-antenna transmitters (N>1); 3.3 Broadcast channel (BC) capacity region; 3.3.1 Single-antenna transmitters (M = 1); 3.3.2 Multiple-antenna transmitters (M>1); 3.4 MAC-BC Duality; 3.5 Scalar performance metrics; 3.5.1 Maximizing the MAC weighted sum rate; 3.5.2 Maximizing the BC weighted sum rate; 3.6 Sum-rate performance; 3.6.1 MU-MIMO sum-rate capacity and SU-MIMO capacity; 3.6.2 Sum rate versus SNR; 3.6.2.1 MAC sum rate at low SNR |
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3.6.2.2 BC sum rate at low SNR3.6.2.3 MAC and BC sum rates at high SNR; 3.6.2.4 Numerical results; 3.6.3 Sum rate versus the number of base antennas M; 3.6.4 Sum rate versus the number of users K; 3.7 Practical considerations; 3.7.1 Successive interference cancellation; 3.7.2 Dirty paper coding; 3.7.3 Spatial richness; 3.8 Summary; Chapter 4 Suboptimal Multiuser MIMO Techniques; 4.1 Suboptimal techniques for the multiple-access channel; 4.1.1 Beamforming for the case of many users; 4.1.2 Alternatives for MMSE-SIC detection; 4.2 Suboptimal techniques for the broadcast channel |
| Summary |
As the theoretical foundations of multiple-antenna (MIMO) techniques evolve and these techniques become essential for providing high data rates in wireless systems, there is a growing need to better understand the performance limits of MIMO in practical networks. To address this need, MIMO Communication for Cellular Networks presents a systematic description of MIMO technology classes and a framework for MIMO system design that accounts for the essential physical-layer features of practical cellular networks. Unlike books that focus on the theoretical performance of abstract MIMO channels, thi |
| Analysis |
Engineering |
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Data transmission systems |
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Computer Communication Networks |
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Telecommunication |
| Bibliography |
Includes bibliographical references (pages 297-308) and index |
| Subject |
MIMO systems.
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TECHNOLOGY & ENGINEERING -- Mechanical.
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Ingénierie.
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MIMO systems
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| Form |
Electronic book
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| Author |
Papadias, Constantinos B
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Venkatesan, Sivarama
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| ISBN |
9780387775234 |
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0387775234 |
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