Yang S.C. — 3G CDMA2000 Wireless System Engineering :: Электронная библиотека попечительского совета мехмата МГУ

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Yang S.C. — 3G CDMA2000 Wireless System Engineering

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Название: 3G CDMA2000 Wireless System Engineering

Автор: Yang S.C.

Аннотация:

Yang (California State University) explains complex technology in terms of its basic concepts and offers advice on the design, optimization, and management of a CDMA2000 wireless network. This book covers the theoretical foundations of the system, its key requirements and features, power control and hand-off functionalities, system performance and design, and network architecture. It also includes a detailed presentation of 1xEV-DO, explaining the differences between 1xEV-DO and CDMA2000 and the ways they work in tandem.

Язык:

Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2004

Количество страниц: 280

Добавлена в каталог: 21.05.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Reverse pilot channel (R-PICH), gated transmission      47
Reverse pilot channel (R-PICH), gating      48—49
Reverse pilot channel (R-PICH), gating illustration      49
Reverse pilot channel (R-PICH), gating rate      48
Reverse pilot channel (R-PICH), power control      47
Reverse pilot channel (R-PICH), power control bits      48 49
Reverse pilot channel (R-PICH), power control groups      48
Reverse pilot channel (R-PICH), power control subchannel      47—48
Reverse pilot channel (R-PICH), power measurement report messages      47
Reverse pilot channel (R-PICH), transmit power      116
Reverse pilot channel (R-PICH), uses      45
Reverse power control (1xEV-DO)      239—240
Reverse power control (1xEV-DO), closed-loop      240
Reverse power control (1xEV-DO), open-loop      239—240
Reverse power control channel      219—220
Reverse power control channel for sending power control bits      219 (see also “MAC channel (1xEV-DO)”)
Reverse power control channel, block diagram      222
Reverse power control channel, defined      219
Reverse power control channel, quality      220
Reverse rate indicator channel      235
Reverse supplemental channel (R-SCH)      8 50
Reverse supplemental channel (R-SCH), block diagram      51
Reverse supplemental channel (R-SCH), changing transmission rate on      149
Reverse supplemental channel (R-SCH), characteristics      50
Reverse supplemental channel (R-SCH), coverage      167
Reverse supplemental channel (R-SCH), frame      50
Reverse supplemental channel (R-SCH), power control      116
Reverse supplemental channel (R-SCH), received signal power      172
Reverse supplemental channel (R-SCH), use      167 176
Reverse supplemental channel assignment mini message (RSCAMM)      102
Reverse traffic channel      231—236
Reverse traffic channel MAC protocol      227—228
Reverse traffic channel MAC protocol, defined      227
Reverse traffic channel MAC protocol, open state      228
Reverse traffic channel MAC protocol, setup state      227—228 (see also “MAC layer (1xEV-DO reverse link)”)
Reverse traffic channel, ACK channel      235—236
Reverse traffic channel, data channel      232—233
Reverse traffic channel, data rate control channel      233—234
Reverse traffic channel, data rates      232
Reverse traffic channel, elements      229—230
Reverse traffic channel, physical layer packet      231 232
Reverse traffic channel, pilot channel      235
Reverse traffic channel, reverse rate indicator channel      235 (see also “Reverse link (1xEV-DO)”)
Route update protocol      208
Sectorization      178
Security layer (1xEV-DO)      210
Segmentation and reassembly (SAR) sublayer      74
Segmentation and reassembly (SAR) sublayer, common signaling: forward link      74
Segmentation and reassembly (SAR) sublayer, common signaling: reverse link      77
Segmentation and reassembly (SAR) sublayer, dedicated signaling: forward link      78
Segmentation and reassembly (SAR) sublayer, dedicated signaling: reverse link      80
Segmentation and reassembly (SAR) sublayer, defined      74
Service data units (SDUs)      4 5
Service data units (SDUs), Layer 3      77
Service data units (SDUs), MAC sublayer passing      60
Service data units (SDUs), R-DCCH      59 60
Service option connection      95
Session layer (1xEV-DO)      205—206
Shared secret data (SSD)      93
signaling      7—8
Signaling channels, defined      11
Signaling channels, F-APICH      25
Signaling channels, F-ATDPICH      25—26
Signaling channels, F-BCCH      20—21
Signaling channels, F-CACH      21—22
Signaling channels, F-CCCH      19—20
Signaling channels, F-CPCCH      22—24
Signaling channels, F-DCCH      15—16
Signaling channels, F-QPCH      16—19
Signaling channels, F-TDPICH      25
Signaling channels, forward link      15—26
Signaling channels, R-DCCH      40—41
Signaling channels, reverse link      37 40—49
Signaling LAC      71—83
Signaling Radio Burst Protocol (SRBP)      3 4 5 63—64
Signaling Radio Burst Protocol (SRBP), access probes      63
Signaling Radio Burst Protocol (SRBP), channels controlled by      63
Signaling Radio Burst Protocol (SRBP), function      55
Signaling Radio Burst Protocol (SRBP), processing at base station      64
Signaling Radio Burst Protocol (SRBP), SDUs      63
Signaling, channel setup      97—104
Signaling, dimensions      86
Signaling, entity      86 87
Signaling, functions      86
Signaling, mode transitions      96—97
Signaling, state transitions      87—95
Signaling, upper layers      85—104
Slotted mode      89 90
Smart antenna schemes      177
Soft handoff      123—133
Soft handoff, active set      124—127
Soft handoff, candidate set      127—128
Soft handoff, defined      123
Soft handoff, example      129—133
Soft handoff, example illustration      131
Soft handoff, illustrated      124
Soft handoff, neighbor set      128—129
Soft handoff, process management      123
Soft handoff, remaining set      129
Soft handoff, set transitions      129 (see also “Handoffs”)
Space time spreading (STS)      152 154—156
Space time spreading (STS), defined      154
Space time spreading (STS), illustrated      154
Space time spreading (STS), implementation      155
Space time spreading (STS), performance      156 (see also “Transmit diversity”)
Spot beams      25
Spreading      51
Spreading Rate 1      144
Spreading Rate 1, defined      5
Spreading Rate 1, illustrated      6 7
Spreading Rate 1, on reverse link      7

Spreading Rate 3 on forward link      7
Spreading Rate 3, defined      5
Spreading Rate 3, illustrated      6 7
Spreading Rate 3, implementation options      5
Spreading, codes      51
Spreading, space time      154—155
State transitions      87—95
State transitions at the mobile      87
State transitions, air link management protocol      207
State transitions, initialization state      88—89
State transitions, mobile station idle state      89—91
State transitions, system access state      91—94
State transitions, top-level      87
State transitions, traffic channel state      94—95
Stream layer (1xEV-DO)      205
Supplemental channel assignment, base station initiation      102
Supplemental channel assignment, mobile station initiation      103
Supplemental channel code list (SCCL)      101 103
Supplemental channel request mini message (SCRMM)      104
Symmetric data rates      1
Sync channel acquisition substate      89
Sync channel messages      89
System access      64—68
System access state      91—94
System access state, mobile station message transmission substate      93
System access state, mobile station order/message response substate      93
System access state, mobile station origination attempt substate      93
System access state, normal transitions      92
System access state, page response substate      92—93
System access state, registration access substate      93
System access state, update overhead information substate      91—92 (see also “State transitions”)
System access, access mode types      64
System access, basic access mode      65
System access, designated access mode      68
System access, PACA cancel substate      94
System access, power controlled access mode      67—68
System access, reservation access mode      65—67 (see also “Medium access control (MAC) sublayer”)
System design, capacity      171—185
System design, coverage      159—170
System design, purpose      159
System determination substate      88
System performance      141—156
System performance, channel supervision      141—142
System performance, code management      142—150
System performance, transmit diversity      152—156
System performance, turbo codes      150—152
Third generation (3G) systems      1
Third generation (3G) systems, turbo codes in      151 (see also “3G networks”)
Three-sector cells      184
Time division multiplexing (TDM)      213 221—225
Time division multiplexing (TDM), chip stream      222 223
Time division multiplexing (TDM), chip stream example      224
Time division multiplexing (TDM), illustrated      223
Time division multiplexing (TDM), output      225
Time division multiplexing (TDM), slot structure      223
Timing change substate      89
Total power density      160
Traffic channel state      94—95
Traffic channel state, initialization substate      94
Traffic channel state, release substate      95
Traffic channel state, substate      94—95 (see also “State transitions”)
Traffic channels, IS-2000      14
Traffic channels, reverse link      175
Traffic channels, supervision      141—142
Transcoding      188
transitions      97
Transmission Control Protocol (TCP)      192
Transmit diversity      25 26 152—156
Transmit diversity pilot channel (F-TDPICH)      25
Transmit diversity, orthogonal      152—154
Transmit diversity, space time spreading      154—156
Turbo codes      8 150—152
Turbo codes for supplemental channels      151—152
Turbo codes in 3G systems      151
Turbo codes, characteristics      150
Turbo codes, defined      150
Unassured delivery      73
Universal Mobile Telephone System (UMTS)      1
Update overhead information substate      91—92
Upper layer, defined      2
Upper layer, signaling      85—104
User channels, defined      11
User channels, F-FCH      26—27
User channels, F-SCH      27—31
User channels, forward link      26—31
User channels, R-FCH      50
User channels, R-SCCH      49
User channels, R-SCH      50 (see also “Physical layer”)
User channels, reverse link      37 49—50
User Datagram Protocol (UDP)      192
Utility sublayer in common signaling      74
Utility sublayer, common signaling: reverse link      77
Utility sublayer, dedicated signaling: forward link      77—78
Utility sublayer, dedicated signaling: reverse link      80
Utility sublayer, defined      73
Utility sublayer, functions      73 (see also “Link access control (LAC)”)
Visitor location register (VLR)      188
Voice calls, base station-originated      98—99
Voice calls, mobile station-originated      99—100
Walsh codes      24 25 26 32 234 236
Walsh codes for channelization      52 53
Walsh codes, assignment of      144—147
Walsh codes, chip rate      51
Walsh codes, deriving      143
Walsh codes, generation of      143—144
Walsh codes, lengths of      145
Walsh codes, multiplying with      33
Walsh codes, predefined      149 150
Walsh codes, short      34
Walsh codes, simultaneous use      146
X.25 standard      60

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