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(s): Samuel C. Yang
Year: 2004
Language: English
Pages: 270
TeamLiB......Page 0
Cover......Page 1
Contents......Page 8
Preface......Page 14
Acknowledgments......Page 18
1.1 Third Generation Systems......Page 20
1.2 Protocol Architecture......Page 21
1.3 Other Elements of Protocol Architecture......Page 22
1.4 Spreading Rate 1 and Spreading Rate 3......Page 24
1.5 Differences Between IS-2000 and IS-95......Page 26
References......Page 28
2.1 Introduction......Page 30
2.2 Radio Configurations......Page 33
2.3 Signaling Channels......Page 34
2.4 User Channels......Page 45
2.5 Channel Structure......Page 50
2.6 Modulation......Page 51
2.7 Capacity Gain: Forward Link......Page 53
Selected Bibliography......Page 54
3.1 Introduction......Page 56
3.2 Radio Configurations......Page 58
3.3 Signaling Channels......Page 59
3.4 User Channels......Page 68
3.5 Channel Structure......Page 69
3.6 Modulation......Page 70
3.7 Capacity Gain: Reverse Link......Page 71
Selected Bibliography......Page 72
4.2 Primitives......Page 74
4.3 Multiplex Sublayers......Page 76
4.4 Radio Link Protocol (RLP)......Page 79
4.5 Signaling Radio Burst Protocol (SRBP)......Page 82
4.6 System Access......Page 83
References......Page 87
5.2 LAC Sublayers......Page 90
5.3 Sublayer Processing......Page 93
5.4 Interaction of Layer and Sublayers......Page 99
References......Page 102
6.1 Overview......Page 104
6.2 State Transitions: Call Processing......Page 106
6.3 Mode Transitions: Packet Data Transmission......Page 115
6.4 Channel Setup......Page 116
References......Page 123
7.2 Power Control of the Forward Link......Page 126
7.3 Power Control of the Reverse Link: Open Loop......Page 132
7.4 Power Control of the Reverse Link: Closed Loop......Page 136
References......Page 140
8.2 Soft Handoff......Page 142
8.3 Idle Handoff......Page 152
8.4 Access Entry Handoff......Page 154
8.6 Access Probe Handoff......Page 157
8.7 Concluding Remarks......Page 158
References......Page 159
9.2 Channel Supervision......Page 160
9.3 Code Management......Page 161
9.4 Turbo Codes......Page 169
9.5 Transmit Diversity......Page 171
References......Page 175
Selected Bibliography......Page 176
10.1 Introduction......Page 178
10.2 Forward Pilot Channel......Page 180
10.3 Forward Fundamental Channel......Page 181
10.4 Forward Supplemental Channel......Page 182
10.6 Reverse Fundamental Channel......Page 184
10.7 Reverse Supplemental Channel......Page 186
10.8 Upper Bounds of Interference: Reverse Link......Page 187
10.10 Concluding Remarks......Page 188
Reference......Page 189
11.2 Mathematical Definitions......Page 190
11.3 Reverse Link......Page 193
11.4 Forward Link......Page 197
References......Page 204
12.2 2G Network......Page 206
12.3 3G Network......Page 208
12.4 Simple IP......Page 211
12.5 Mobile IP......Page 212
12.6 Concluding Remarks......Page 215
References......Page 216
13.1 Introduction......Page 218
13.2 1xEV-DO Network......Page 220
13.3 Protocol Architecture......Page 221
References......Page 230
14.2 MAC Layer......Page 232
14.3 Physical Layer......Page 234
Selected Bibliography......Page 245
15.2 MAC Layer......Page 246
15.3 Physical Layer......Page 248
15.4 Reverse Power Control......Page 258
Selected Bibliography......Page 259
About the Author......Page 260
Index......Page 262
