3G HSPA and FDD versus TDD Networking Smart Antennas and Adaptive Modulation 2nd Edition by Lajos L Hanzo, Jonathan Blogh, Song Ni ISBN 0470754206 978-0470754207
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Product details:
ISBN 10: 0470754206
ISBN 13: 978-0470754207
Author: Lajos L Hanzo, Jonathan Blogh, Song Ni
3G, HSPA and FDD versus TDD Networking, Second Edition is the only book that contrasts the network capacity gains that may be achieved with the advent of adaptive antenna arrays and HSDPA-style adaptive modulation techniques in the context of FDD and TDD CDMA cellular networks. In the five years since the first edition of this book was published the wireless landscape has evolved further. The new book addresses the recent developments in the field of HSDPA-style wireless networking, focusing particularly on the issues and challenges of FDD versus TDD networking. These solutions are particularly powerful in shadow-faded scenarios, when the antenna array elements experience correlated, rather than independent fading. Furthermore, the flexible up-link/down-link time-slot allocation of TDD is beneficial for supporting the Wireless Internet, but results in erratic interference fluctuations, which is efficiently combated by the antenna arrays and adaptive modulation. Additionally, whilst the adaptive modulation aided system simply drops the instantaneous transmission rate during instances of high interference, conventional networks would drop the call.
Builds on successful previous edition to include recent developments in the field of HSDPA-style wireless networking
Provides an all-encompassing self-contained overview of the subject for a wide range of readers of all levels.
Treats the topics of both physical-layer and network-layer aspects of wireless systems using a cross-layer optimization approach.
One of the first books to contrast in detail both FDD and TDD networking.
The material is presented clearly and logically allowing the uninitiated reader to commence reading it at fundamental non-mathematical conceptual level at the beginning of the book, while advanced readers can turn directly to the required chapter describing solutions to a number of wireless FDD or TDD networking problems. This book will inspire researchers, practicing engineers, operators, marketing engineers and advanced postgraduates.
Table of contents:
1 Third-generation CDMA Systems
1.1 Introduction
1.2 Basic CDMA System
1.2.1 Spread Spectrum Fundamentals
1.2.2 The Effect of Multipath Channels
1.2.3 Rake Receiver
1.2.4 Multiple Access
1.2.5 Spreading Codes
1.2.6 Channel Estimation
1.2.7 Summary
1.3 Third-generation Systems
1.3.1 Introduction
1.3.2 UMTS Terrestrial Radio Access (UTRA)
1.3.3 The cdma2000 Terrestrial Radio Access
1.3.4 Performance-enhancement Features
1.3.5 Summary of 3G Systems
1.4 Summary and Conclusions
2 High Speed Downlink and Uplink Packet Access
2.1 Introduction
2.2 High Speed Downlink Packet Access
2.2.1 Physical Layer
2.2.2 Medium Access Control (MAC) Layer
2.3 High Speed Uplink Packet Access
2.3.1 Physical Layer
2.3.2 MAC Layer
2.4 Implementation Issues
2.4.1 HS-SCCH Detection Algorithm
2.4.2 16QAM
2.4.3 HARQ Result Processing Time
2.4.4 Crest Factor
3 HSDPA-style Burst-by-Burst Adaptive Wireless Transceivers
3.1 Motivation
3.2 Narrowband Burst-by-Burst Adaptive Modulation
3.3 Wideband Burst-by-Burst Adaptive Modulation
3.3.1 Channel Quality Metrics
3.4 Wideband BbB-AQAM Video Transceivers
3.5 BbB-AQAM Performance
3.6 Wideband BbB-AQAM Video Performance
3.6.1 AQAM Switching Thresholds
3.6.2 Turbo-coded AQAM Videophone Performance
3.7 Burst-by-Burst Adaptive Joint-Detection CDMA Video Transceiver
3.7.1 Multi-user Detection for CDMA
3.7.2 JD-ACDMA Modem Mode Adaptation and Signalling
3.7.3 The JD-ACDMA Video Transceiver
3.7.4 JD-ACDMA Video Transceiver Performance
3.8 Subband-adaptive OFDM Video Transceivers
3.9 Summary and Conclusions
4 Intelligent Antenna Arrays and Beamforming
4.1 Introduction
4.2 Beamforming
4.2.1 Antenna Array Parameters
4.2.2 Potential Benefits of Antenna Arrays in Mobile Communications
4.2.3 Signal Model
4.2.4 A Beamforming Example
4.2.5 Analog Beamforming
4.2.6 Digital Beamforming
4.2.7 Element-space Beamforming
4.2.8 Beam-space Beamforming
4.3 Adaptive Beamforming
4.3.1 Fixed Beams
4.3.2 Temporal Reference Techniques
4.3.3 Spatial Reference Techniques
4.3.4 Blind Adaptation
4.3.5 Adaptive Arrays in the Downlink
4.3.6 Adaptive Beamforming Performance Results
4.4 Summary and Conclusions
5 Adaptive Arrays in an FDMA/TDMA Cellular Network
5.1 Introduction
5.2 Modelling Adaptive Antenna Arrays
5.2.1 Algebraic Manipulation with Optimal Beamforming
5.2.2 Using Probability Density Functions
5.2.3 Sample Matrix Inversion Beamforming
5.3 Channel Allocation Techniques
5.3.1 Overview of Channel Allocation
5.3.2 Simulation of the Channel Allocation Algorithms
5.3.3 Overview of Channel Allocation Algorithms
5.3.4 DCA Performance without Adaptive Arrays
5.4 Employing Adaptive Antenna Arrays
5.5 Multipath Propagation Environments
5.6 Network Performance Results
5.6.1 System Simulation Parameters
5.6.2 Non-wraparound Network Performance Results
5.6.3 Wrap-around Network Performance Results
5.7 Summary and Conclusions
6 HSDPA-style FDD Networking, Adaptive Arrays and Adaptive Modulation
6.1 Introduction
6.2 Direct Sequence Code Division Multiple Access
6.3 UMTS Terrestrial Radio Access
6.3.1 Spreading and Modulation
6.3.2 Common Pilot Channel
6.3.3 Power Control
6.3.4 Soft Handover
6.3.5 Signal-to-interference plus Noise Ratio Calculations
6.3.6 Multi-user Detection
6.4 Simulation Results
6.4.1 Simulation Parameters
6.4.2 The Effect of Pilot Power on Soft Handover Results
6.4.3 Ec/Io Power Based Soft Handover Results
6.4.4 Overview of Results
6.4.5 Performance of Adaptive Antenna Arrays in a High Data Rate Pedestrian Environment
6.4.6 Performance of Adaptive Antenna Arrays and Adaptive Modulation in a High Data Rate Pedestrian Environment
6.5 Summary and Conclusions
7 HSDPA-style FDD/CDMA Performance Using Loosely Synchronized Spreading Codes
7.1 Effects of Loosely Synchronized Spreading Codes on the Performance of CDMA Systems
7.1.1 Introduction
7.1.2 Loosely Synchronized Codes
7.1.3 System Parameters
7.1.4 Simulation Results
7.1.5 Summary
7.2 Effects of Cell Size on the UTRA Performance
7.2.1 Introduction
7.2.2 System Model and System Parameters
7.2.3 Simulation Results and Comparisons
7.2.4 Summary and Conclusion
7.3 Effects of SINR Threshold on the Performance of CDMA Systems
7.3.1 Introduction
7.3.2 Simulation Results
7.3.3 Summary and Conclusion
7.4 Network-layer Performance of Multi-carrier CDMA
7.4.1 Introduction
7.4.2 Simulation Results
7.4.3 Summary and Conclusions
8 HSDPA-style TDD/CDMA Network Performance
8.1 Introduction
8.2 UMTS FDD versus TDD Terrestrial Radio Access
8.2.1 FDD versus TDD Spectrum Allocation of UTRA
8.2.2 Physical Channels
8.3 UTRATDD/CDMA System
8.3.1 The TDD Physical Layer
8.3.2 Common Physical Channels of the TDD Mode
8.3.3 Power Control
8.3.4 Time Advance
8.4 Interference Scenario in TDD CDMA
8.4.1 Mobile-to-Mobile Interference
8.4.2 Base Station-to-Base Station Interference
8.5 Simulation Results
8.5.1 Simulation Parameters
8.5.2 Performance of Adaptive Antenna Array Aided TDD CDMA Systems
8.5.3 Performance of Adaptive Antenna Array and Adaptive Modulation Aided TDD HSDPA-style Systems
8.6 Loosely Synchronized Spreading Code Aided Network Performance Of UTRA-like TDD/CDMA Systems
8.6.1 Introduction
8.6.2 LS Codes in UTRA TDD/CDMA
8.6.3 System Parameters
8.6.4 Simulation Results
8.6.5 Summary and Conclusions
9 The Effects of Power Control and Hard Handovers on the UTRA TDD/CDMA System
9.1 A Historical Perspective on Handovers
9.2 Hard HO in UTRA-like TDD/CDMA Systems
9.2.1 Relative Pilot Power-based Hard HO
9.2.2 Simulation Results
9.3 Power Control in UTRA-like TDD/CDMA Systems
9.3.1 UTRATDD Downlink Closed-loop Power Control
9.3.2 UTRA TDD Uplink Closed-loop Power Control
9.3.3 Closed-loop Power Control Simulation Results
9.3.4 UTRA TDDUL Open-loop Power Control
9.3.5 Frame-delay-based Power Adjustment Model
9.4 Summary and Conclusion
10 Genetically Enhanced UTRA/TDD Network Performance
10.1 Introduction
10.2 The Genetically Enhanced UTRA-like TDD/CDMA System
10.3 Simulation Results
10.4 Summary and Conclusion
11 Conclusions and Further Research
11.1 Summary of FDD Networking
11.2 Summary of FDD versus TDD Networking
11.3 Further Research
11.3.1 Advanced Objective Functions
11.3.2 Other Types of GAs
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Lajos L Hanzo,Jonathan Blogh,Song Ni,3G HSPA,FDD versus TDD Networking