MmWave Massive MIMO : a paradigm for 5G.

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Mumtaz, Shahid, Rodriguez, Jonathan, Dai, Linglong
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London, United Kingdom : Academic Press is an imprint of Elsevier, 2016, �2017.
Temas:
MIMO systems.
Syst�emes �a entr�ees multiples et �a sorties multiples.
TECHNOLOGY & ENGINEERING > Mechanical.
MIMO systems
Electronics & communications engineering.
WAP (wireless) technology.
Network management.
Engineering: general.
Communications engineering > telecommunications.
Mobile phone technology.
Computer networking & communications.
Technology.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; mmWave Massive MIMO: A Paradigm for 5G; Copyright; Contents; Contributors; Preface; Acknowledgments; About the Editors; Chapter 1: Introduction to mmWave massive MIMO; 1.1. Requirements of Key Capabilities for 5G; 1.2. 5G Network Architecture Based on mmWave Massive MIMO; 1.3. Challenges for mmWave Massive MIMO; 1.4. Structure and Contributions of This Book; References; Chapter 2: SISO to mmWave massive MIMO; 2.1. Overview of Wireless Communication Evolution; 2.2. The Channel Models Behind SISO, MIMO; 2.2.1. Wireless Propagation Loss; 2.2.2. Free Space Propagation Model.
  • 2.2.3. Ray TracingTwo ray tracing model; General ray tracing model; 2.2.4. Empirical Models; Okumura model; Hata model; 2.2.5. Shadowing Effects; 2.3. From SISO to MIMO; 2.3.1. Outage Probability and Cell Coverage Area; 2.3.2. Rayleigh and Rician Channel Models; 2.3.3. Capacity and Transmission Rate Analysis; General analysis of SISO system; The MIMO system; 2.4. From MIMO to mMIMO; 2.4.1. Even Faster Transmission Speed; 2.4.2. Energy Efficiency; 2.5. Emerging Topics in mmWave mMIMO; References; Chapter 3: Hybrid antenna array for mmWave massive MIMO; 3.1. Introduction.
  • 3.2. Massive Hybrid Array Architectures3.3. Hardware Design for Analog Subarray; 3.3.1. Antenna Arrays; Quasi-Yagi antenna arrays; Stacked patch antenna with perpendicular feed substrate; 3.3.2. RF Chain Architectures; 3.3.3. Hybrid Array Prototypes; 3.4. Smart Antenna Techniques; 3.4.1. Array Geometry; 3.4.2. Pure Beamforming and AoA Estimation; 3.4.3. Single-User MIMO; 3.4.4. SDMA; 3.5. Conclusions; References; Chapter 4: Encoding and detection in mmWave massive MIMO; 4.1. Introduction; 4.2. Background; 4.3. System Model; 4.4. Multicell Uplink Communication.
  • 4.4.1. Uplink Training With Pilot Reuse4.4.2. Actual Transmission of Data; 4.4.3. Achievable Cell Throughput; 4.5. Results; 4.6. Conclusion; References; Chapter 5: Precoding for mmWave massive MIMO; 5.1. Introduction; 5.2. Channel Model for mmWave Massive MIMO; 5.3. Digital Precoding; 5.3.1. Single-User Digital Precoding; 5.3.2. Multiuser Digital Precoding; 5.3.3. Summary of Digital Precoding; 5.4. Analog Beamforming; 5.4.1. Beam Steering; 5.4.2. Beam Training; 5.4.3. Summary of Analog Beamforming; 5.5. Hybrid Precoding; 5.5.1. Single-User Hybrid Precoding; System model.
  • Spatially sparse hybrid precoding (fully connected)Fully connected architecture; Basic idea; Performance evaluation; Summary of the spatially sparse hybrid precoding; SIC-based hybrid precoding (subconnected); Subconnected architecture; Basic idea; Performance evaluation; Summary of the SIC-based hybrid precoding; 5.5.2. Multiuser Hybrid Precoding; System model; Two-stage hybrid precoding; Basic idea; Performance evaluation; Summary of two-stage multiuser hybrid precoding; 5.6. Conclusions; References; Chapter 6: Channel estimation for mmWave massive MIMO systems; 6.1. Introduction.

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