Title:
3G CDMA2000 wireless system engineering
Personal Author:
Series:
Artech House mobile communications library
Publication Information:
Boston : Artech House, 2004
ISBN:
9781580537575
Available:*
Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
|---|---|---|---|---|---|
Searching... | 30000010077642 | TK5103.2 Y36 2004 | Open Access Book | Book | Searching... |
On Order
Summary
Summary
CDMA2000 is of critical interest to wireless communications professionals because this 3G (third generation) standard provides for faster data rates, always-on data service, and improved voice network capacity. Breaking down complex technology into easy-to-understand concepts, this hands-on, system-level resource offers RF (radio frequency) and wireless system engineers expert guidance in designing, optimizing, and operating a CDMA2000 wireless network.
Author Notes
Samuel C. Yang holds an undergraduate degree from Cornell University and two graduate degrees from Stanford University, all in electrical engineering.
Yang is currently a manager of the System Engineering group at Verizon Wireless, where he played a key role in the design and commercialization of the first large-scale CDMA system in North America.
050
Table of Contents
| Preface | p. xiii |
| Acknowledgments | p. xvii |
| Chapter 1 Introduction to 3G CDMA | p. 1 |
| 1.1 Third Generation Systems | p. 1 |
| 1.2 Protocol Architecture | p. 2 |
| 1.3 Other Elements of Protocol Architecture | p. 3 |
| 1.4 Spreading Rate 1 and Spreading Rate 3 | p. 5 |
| 1.5 Differences Between IS-2000 and IS-95 | p. 7 |
| References | p. 9 |
| Chapter 2 Physical Layer: Forward Link | p. 11 |
| 2.1 Introduction | p. 11 |
| 2.2 Radio Configurations | p. 14 |
| 2.3 Signaling Channels | p. 15 |
| 2.4 User Channels | p. 26 |
| 2.5 Channel Structure | p. 31 |
| 2.6 Modulation | p. 32 |
| 2.7 Capacity Gain: Forward Link | p. 34 |
| References | p. 35 |
| Selected Bibliography | p. 35 |
| Chapter 3 Physical Layer: Reverse Link | p. 37 |
| 3.1 Introduction | p. 37 |
| 3.2 Radio Configurations | p. 39 |
| 3.3 Signaling Channels | p. 40 |
| 3.4 User Channels | p. 49 |
| 3.5 Channel Structure | p. 50 |
| 3.6 Modulation | p. 51 |
| 3.7 Capacity Gain: Reverse Link | p. 52 |
| References | p. 53 |
| Selected Bibliography | p. 53 |
| Chapter 4 Medium Access Control | p. 55 |
| 4.1 Introduction | p. 55 |
| 4.2 Primitives | p. 55 |
| 4.3 Multiplex Sublayers | p. 57 |
| 4.4 Radio Link Protocol (RLP) | p. 60 |
| 4.5 Signaling Radio Burst Protocol (SRBP) | p. 63 |
| 4.6 System Access | p. 64 |
| References | p. 68 |
| Chapter 5 Signaling Link Access Control | p. 71 |
| 5.1 Introduction | p. 71 |
| 5.2 LAC Sublayers | p. 71 |
| 5.3 Sublayer Processing | p. 74 |
| 5.4 Interaction of Layer and Sublayers | p. 80 |
| References | p. 83 |
| Chapter 6 Signaling: Upper Layers | p. 85 |
| 6.1 Overview | p. 85 |
| 6.2 State Transitions: Call Processing | p. 87 |
| 6.3 Mode Transitions: Packet Data Transmission | p. 96 |
| 6.4 Channel Setup | p. 97 |
| References | p. 104 |
| Chapter 7 Power Control | p. 107 |
| 7.1 Introduction | p. 107 |
| 7.2 Power Control of the Forward Link | p. 107 |
| 7.3 Power Control of the Reverse Link: Open Loop | p. 113 |
| 7.4 Power Control of the Reverse Link: Closed Loop | p. 117 |
| References | p. 121 |
| Chapter 8 Handoff | p. 123 |
| 8.1 Introduction | p. 123 |
| 8.2 Soft Handoff | p. 123 |
| 8.3 Idle Handoff | p. 133 |
| 8.4 Access Entry Handoff | p. 134 |
| 8.5 Access Handoff | p. 135 |
| 8.6 Access Probe Handoff | p. 138 |
| 8.7 Concluding Remarks | p. 139 |
| References | p. 140 |
| Chapter 9 System Performance | p. 141 |
| 9.1 Introduction | p. 141 |
| 9.2 Channel Supervision | p. 141 |
| 9.3 Code Management | p. 142 |
| 9.4 Turbo Codes | p. 150 |
| 9.5 Transmit Diversity | p. 152 |
| References | p. 156 |
| Selected Bibliography | p. 157 |
| Chapter 10 System Design: Coverage | p. 159 |
| 10.1 Introduction | p. 159 |
| 10.2 Forward Pilot Channel | p. 161 |
| 10.3 Forward Fundamental Channel | p. 162 |
| 10.4 Forward Supplemental Channel | p. 163 |
| 10.5 Upper Bounds of Interference: Forward Link | p. 165 |
| 10.6 Reverse Fundamental Channel | p. 165 |
| 10.7 Reverse Supplemental Channel | p. 167 |
| 10.8 Upper Bounds of Interference: Reverse Link | p. 168 |
| 10.9 E[subscript b]/N[subscript 0] and Receiver Sensitivity | p. 169 |
| 10.10 Concluding Remarks | p. 169 |
| Reference | p. 170 |
| Chapter 11 System Design: Capacity | p. 171 |
| 11.1 Introduction | p. 171 |
| 11.2 Mathematical Definitions | p. 171 |
| 11.3 Reverse Link | p. 174 |
| 11.4 Forward Link | p. 178 |
| References | p. 185 |
| Chapter 12 Network Architecture | p. 187 |
| 12.1 Introduction | p. 187 |
| 12.2 2G Network | p. 187 |
| 12.3 3G Network | p. 189 |
| 12.4 Simple IP | p. 192 |
| 12.5 Mobile IP | p. 193 |
| 12.6 Concluding Remarks | p. 196 |
| References | p. 197 |
| Chapter 13 1xEV-DO Network | p. 199 |
| 13.1 Introduction | p. 199 |
| 13.2 1xEV-DO Network | p. 201 |
| 13.3 Protocol Architecture | p. 202 |
| References | p. 211 |
| Chapter 14 1xEV-DO Radio Interface: Forward Link | p. 213 |
| 14.1 Introduction | p. 213 |
| 14.2 MAC Layer | p. 213 |
| 14.3 Physical Layer | p. 215 |
| 14.4 Concluding Remarks | p. 226 |
| References | p. 226 |
| Selected Bibliography | p. 226 |
| Chapter 15 1xEV-DO Radio Interface: Reverse Link | p. 227 |
| 15.1 Introduction | p. 227 |
| 15.2 MAC Layer | p. 227 |
| 15.3 Physical Layer | p. 229 |
| 15.4 Reverse Power Control | p. 239 |
| References | p. 240 |
| Selected Bibliography | p. 240 |
| About the Author | p. 241 |
| Index | p. 243 |
