Space-time processing for CDMA mobile communications /

Space-Time Processing for CDMA Mobile Communications is one of the first books to: bring together spatial/temporal channel models and analytic performance evaluation techniques; establish a link between smart antenna systems and advanced receiver design techniques; treat smart antennas specifically...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Van Rooyen, Pieter
Otros Autores: Lötter, M. N., Van Wyk, Danie
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Boston : Kluwer Academic Publishers, ©2000.
Colección:Kluwer international series in engineering and computer science ; SECS 544.
Temas:
Code division multiple access.
Mobile communication systems.
Adaptive antennas.
Accès multiple par différence de code.
Radiocommunications mobiles.
Antennes adaptatives.
TECHNOLOGY & ENGINEERING > Radio.
TECHNOLOGY & ENGINEERING > Mobile & Wireless Communications.
Adaptive antennas
Code division multiple access
Mobile communication systems
Andre fag (naturvidenskab og teknik) > Andre fag.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Table of Contents
  • List of Figures
  • List of Tables
  • Preface
  • 1. Introduction
  • 1.1 IMT-2000
  • 1.2 IMT-2000 Spectrum Allocation
  • 1.3 From Second Generation to Third Generation
  • 1.4 Universal Mobile Telecommunications System
  • 1.5 Third Generation and Beyond
  • 1.6 Space-time Processing Systems
  • 1.7 Organization of Book
  • 2. Basic Space-Time Aspects
  • 2.1 Relevant Cellular Terminology
  • 2.2 Basic Adaptive Array Concepts
  • 2.3 Space-time Processing
  • 2.4 System Model for Space-time Processing
  • 2.5 Practical Implementation of CDMA Smart Antenna Systems
  • 2.6 Summary
  • 3. Aspects Influencing Space-Time Performance
  • 3.1 Propagation Path
  • 3.2 Temporal Fading
  • 3.3 Scattering Environment
  • 3.4 Angular Subscriber Distribution
  • 3.5 Summary
  • 4. Space-Time Channel Models
  • 4.1 Basic Modeling
  • 4.2 Local Scattering Environmental
  • 4.3 Fading Distribution Based on Scattering Environment
  • 4.4 Summary of Space-time Channel Models
  • 4.5 Summary
  • 5. Smart Antenna Techniques
  • 5.1 Beamforming
  • 5.2 Diversity
  • 5.3 Sectorization
  • 5.4 Switched-beam Smart Antennas
  • 5.5 Summary
  • 6. Smart Antenna Performance
  • 6.1 Beamforming Array Performance
  • 6.2 Receive Diversity Performance
  • 6.3 Combined Diversity and Beamforming Performance
  • 6.4 Choosing a Spatial Processing Technique
  • 6.5 Multiuser Modulation Schemes
  • 6.6 Summary
  • 7. Multiuser Detection
  • 7.1 Multiuser Detection
  • 7.2 System Model for Detection
  • 7.3 One-Shot Detection Techniques
  • 7.4 Interference Cancellation Techniques
  • 7.5 Joint Decoding for Coded CDMA
  • 7.6 Numerical Examples for Interference Cancellation
  • 7.7 Summary
  • 8. Space-Time Coded Transmit Diversity for CDMA
  • 8.1 Space-time Coded Multiple Access
  • 8.2 Turbo Coding
  • 8.3 Space-time Coded System Model
  • 8.4 Layered Space-time Codes
  • 8.5 Performance Evaluation
  • 8.6 Analytical Results
  • 8.7 Simulation Performance
  • 8.8 Space-time Code Extensions
  • 8.9 Summary
  • Appendices
  • A ... List of Abbreviations
  • B ... List of Symbols
  • C ... Typical Power Delay Profiles
  • D ... Correlated Multivariate Gamma Distribution
  • D.1 Correlated Multivariate Gamma Distribution
  • E ... Turbo Code Input-Output CPDF
  • E.1 Input-Output Weight Enumerator Recursion
  • E.2 Input-Output Conditional Probability Density Function
  • F ... Turbo Decoding
  • F.1 Turbo Decoding
  • F.2 Iterative Decoding Algorithms
  • G ... WCDMA Simulation Environment: Physical Layer
  • G.1 Uplink Description Summary
  • G.2 Downlink Description Summary
  • H ... WCDMA Simulation Environment
  • H.1 Link Level Simulation
  • H.2 MATLAB Simulation Software
  • References
  • Index.

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