Lee J.S., Miller L.E. — CDMA systems engineering handbook :: Электронная библиотека попечительского совета мехмата МГУ

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Lee J.S., Miller L.E. — CDMA systems engineering handbook

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Название: CDMA systems engineering handbook

Авторы: Lee J.S., Miller L.E.

Аннотация:

This book was not intended as a communication theory text, but it does a great job of providing the basic results in an organized fashion. It serves as a good reference for me for CDMA related issues, or channel models and fading/diversity analysis.
Definitely recommend the book if you can find one at a decent price. Five stars is granted for the reference use of this book, this should not be a first timers' textbook.
Artech House books are usually packed with errors, since there is no serious review process. But refreshingly this book does not come with a big pack of errata despite the large content.

Язык:

Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1998

Количество страниц: 1228

Добавлена в каталог: 29.03.2006

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

Предметный указатель

Short-term fading cause of      235
Short-term fading illustrated      235 (see also “Fading”)
Signal constellations completely symmetric      708 711
Signal constellations OQPSK      720
Signal constellations QPSK      717
Signal energy-to-noise density ratio      841
Signal power      970
Signal power base station requirement      1084
Signal power link reliability effect and      1085
Signal power power control effect and      1085
Signal power required vs. number of users      1086 1087 1088 1090
Signal processing analog      693
Signal processing digital      693
Signal processing noncoherent      728—35
Signal processing noncoherent demodulation      782
Signal processing receiver, at front end      751—55
Signal processing spread spectrum      8
Signal strength      369
Signal vectors for binary orthogonal modulation      740
Signal vectors for union bound error probability calculation      710
Signal vectors in two-dimensional vector space      700
Signal vectors transmitter waveforms for      687
Signal vectors with decision regions      709
Signal-plus-noise channel decision variable      758
Signal-plus-noise terms      753
Signal-to-interference-plus-noise power ratio      1082
Signal-to-jammed power ratio      22
Signal-to-noise ratio (SNR)      5 298
Signal-to-noise ratio (SNR) base station receiver      1039—40
Signal-to-noise ratio (SNR) channel      966 967
Signal-to-noise ratio (SNR) correlation coefficient      313
Signal-to-noise ratio (SNR) for mobile at cell edge      299
Signal-to-noise ratio (SNR) in coverage-limited case      307
Signal-to-noise ratio (SNR) maximal      971
Signal-to-noise ratio (SNR) median      310
Signal-to-noise ratio (SNR) median receiver      1153
Signal-to-noise ratio (SNR) median reverse link      1052
Signal-to-noise ratio (SNR) output      970—71
Signal-to-noise ratio (SNR) paging channels requirements      131—32
Signal-to-noise ratio (SNR) pilot channel requirements      1130
Signal-to-noise ratio (SNR) probability      932
Signal-to-noise ratio (SNR) reliability requirement      1050
Signal-to-noise ratio (SNR) reverse link disrributions      1052
Signal-to-noise ratio (SNR) square root of      966 969
Signal-to-noise ratio (SNR) sync channel requirements      131
Signal-to-noise ratio (SNR) traffic channels requirements      1132
Simple shift register generator (SSRG)      19 517
Simple shift register generator (SSRG) configuration      518 521 562
Simple shift register generator (SSRG) configuration design      520
Simple shift register generator (SSRG) encoder circuits      521
Simple shift register generator (SSRG) extension Galois field generation      564
Simple shift register generator (SSRG) Fibonacci configuration      570 604
Simple shift register generator (SSRG) implementation with initial loading vector      576
Simple shift register generator (SSRG) initial loading of      593
Simple shift register generator (SSRG) last stage output      563
Simple shift register generator (SSRG) loading all zeros except first stage      578
Simple shift register generator (SSRG) loading all zeros except last stage      579
Simple shift register generator (SSRG) loading/initialization      578
Simple shift register generator (SSRG) mechanizing      563—64 565—66
Simple shift register generator (SSRG) output sequence      572
Simple shift register generator (SSRG) outputs      567—68 594
Simple shift register generator (SSRG) PN sequences      563 564
Simple shift register generator (SSRG) relative delay for      594
Simple shift register generator (SSRG) sequence implementation      583
Simple shift register generator (SSRG) sequence phase-shifting      591
Simple shift register generator (SSRG) stage outputs      590
Simple shift register generator (SSRG) state succession      566
Simple shift register generator (SSRG) state vectors      567 (see also “SSRG masks”)
Sine basic waveform      778
Sine basic waveform autocorrelation function      781
Sine basic waveform PN signal using      779 (see also “Basic waveform”)
Sine function      29
Sine function illustrated      30
Sine function integral of      159—60
Sine function rectangular window      43
Sinewave plus narrowband Gaussian random process      120—26
Sinewave plus narrowband Gaussian random process pdf      125
Sinewave plus narrowband Gaussian random process sample function of      120
Slow fading      233
Soft handoff      310—12 393 395 397
Soft handoff defined      309 1116
Soft handoff gain      315 316
Soft handoff gain advantage      317
Soft handoff link margin      315 1051
Soft handoff margin for      315 316 1053—56
Soft handoff random events      311
Soft handoff reliability      312
Soft handoff scenario      312
Soft handoff signal levels      396
Soft handoff use of      310—11 (see also “Handoff”)
Soft handoff with selection diversity      1054
Soft-decision decoding      896—98
Soft-decision decoding AWGN channel with      896
Soft-decision decoding BER bound      902 910
Soft-decision decoding bit-error probability bounds      898—903
Soft-decision decoding defined      922
Soft-decision decoding first-event error probability bound      902 910
Soft-decision decoding infinite quantization      896 (see also “Decoding”)
Space diversity      929
Space diversity defined      928
Space diversity forms      929 (see also “Diversity”)
Spaced-frequency space-time correlation function      231 232
Spectral density energy      28
Spectral density interference power      11 1033
Spectral density noise      786 1041
Spectral density of narrowband random process      114
Spectral density of same-cell interference      1003
Spectral density power      1003
Spectral density total received      1002
Spectral density white noise      725 (see also “Power spectral density (PSD)”)
Spectral efficiency as functions of cluster size      296
Spectral efficiency interference ratio and      293—96
Spectral efficiency maximal      295
Spread spectrum (SS) antijam (AJ) capabilities      21
Spread spectrum (SS) applications      8
Spread spectrum (SS) defined      7
Spread spectrum (SS) DS      14 16—18
Spread spectrum (SS) FH      14—16
Spread spectrum (SS) military advantage of      21
Spread spectrum (SS) operations illustration      10
Spread spectrum (SS) processing gain      9 1127
Spread spectrum (SS) signal processing      8
Spread spectrum (SS) system categories      14—18
Spread spectrum (SS) techniques      7—10
Square-law transformation      141
Square-law transformation defined      77
Square-law transformation illustrated      79
Square-law transformation of Gaussian RV      143
SSRG masks      592 596—97
SSRG masks calculating      597—98
SSRG masks example      599
SSRG masks finding      596
SSRG masks MSRG masks vs.      592
SSRG masks special/arbitrary loading comparison      597 (see also “Masks”)
Standard deviation      82
State diagrams      860—63 921
State diagrams encoder split open      885
State diagrams encoder split with branches labeled      889
State diagrams encoder with branch words      885
State diagrams encoder with branches labeled      886
State diagrams flow graph diagram of      900—901
State diagrams illustrated      867
State diagrams transfer function      885
State transitions      891 892
State vectors      567 572—76
Statistical average      81—82
Statistical independence      69
Steady-state transition equations      269
Subscriber capacity      1103
Subspace code as      482

Subspace defined      454
Subspace linearly independent vectors      455 (see also “Vector spaces”)
Super hexagon defined      282
Super hexagon illustrated      283
Super hexagon radius      283
Superposition integral      25 51
Superposition summation      51
Surviving paths at each state      877
Surviving paths at time      878 879
Surviving paths defined      875
Surviving paths final, determination      884
Symbol energy-to-noise ratio      944
Symbol error      989
Symbol-error probability      759
Synchronization channel      347—60
Synchronization channel coded symbol rate      461
Synchronization channel CRC for      537—38
Synchronization channel defined      347 1129
Synchronization channel frames      349
Synchronization channel interleaving      348 376 378
Synchronization channel message      347 349
Synchronization channel modulation      348 349
Synchronization channel parameters, valid      350
Synchronization channel received      1131
Synchronization channel SNR requirements      1131
Synchronization channel Walsh-multiplexed      349 (see also “Forward link channels”)
Synchronization channel “superframe”      347
Syndrome calculation      521—27
Syndrome calculators      499 525 537
Syndrome circuit, calculating      497
Syndrome computing      497
Syndrome defined      496
Syndrome detector for cyclic code      526
Syndrome polynomial      526
Syndrome vector      524
Syndrome vector components      499 500
System time      338—39 1118
Systematic code defined      484
Systematic code formats      485
Systematic code generator matrix of      485—86 490
Systematic cyclic codes      510—13
Systematic cyclic codes illustrated      514
Systematic cyclic codes, code polynomial      512
Tapped delay line combiner      976
Tapped delay line output      976
Tapped delay line Rake diversity concept      977
Tapped delay line structure      976
Tau-dither loop (TDL)      793
Tau-dither loop (TDL) advantage of      804
Tau-dither loop (TDL) equivalent loop model for      804
Tau-dither loop (TDL) in noiseless environment      805
Tau-dither loop (TDL) noise performance analysis      805
Tau-dither loop (TDL) noncoherent      803
Tau-dither loop (TDL) operation      804
Tau-dither loop (TDL) tracking      803—6 (see also “Tracking”)
Telecommunications industry Association (TIA)      2
Telephone switches      266
Telephone switches fixed      275
Telephone switches mobile      275
Telephone switches traffic-handling capacity      272
Telephone system carrier      266
Telephone system connectivity      265—66
Telephone traffic theory      265—74
Terrain      171—75
Terrain angles of elevation      251—53
Terrain characterization of      171—75
Terrain clutter      253
Terrain diffraction over      184—86
Terrain effective antenna height and      173—74
Terrain heights      183
Terrain irregular, propagation loss      251—56
Terrain irregularly parameter      172
Terrain profile studies      172
Terrain roughness factor      253
Thermal noise      677 1018 1019
Thermal noise defined      64
Thermal noise Gaussian      105
Thermal noise receiver      304 1151
Thermal noise receiver-generated      120
Thermal noise relative powers of      1020
Time delays      229 230
Time diversity      388 928—29
Time diversity defined      928
Time diversity methods      928 (see also “Diversity”)
Time domain convolutional theorem      29
Time domain interpolation of samples      44
Time domain sampling theorem      43—47
Time-average autocorrelation function      786
Time-division multiple access (TDMA)      2
Time-division multiple access (TDMA) capacity      6
Time-division multiple access (TDMA) digital cellular system      2
Time-division multiple access (TDMA) Erlang capacity comparison      1078—80
Time-division multiple access (TDMA) illustrated      4 (see also “Multiple access techniques”)
Time-in variant systems      24—25
Time-invariant filters      694
Time-selective fading      234 235
Total interference factor      1147
Tracking      790—806
Tracking coherent DLL      800—802
Tracking defined      774
Tracking early-late loops      793
Tracking loop configuration summary      794
Tracking noncoherent DLL      794—99
Tracking reference code circuit      793
Tracking TDL      803—6 (see also “Acquisition”)
Tracking with delay-lock loop      790—94
Traffic channels      353—56
Traffic channels average power      1136
Traffic channels coded symbols      461
Traffic channels CRC for      538
Traffic channels defined      353 1129
Traffic channels encoded symbols      355
Traffic channels error-control coding      1132
Traffic channels FQI calculations      535
Traffic channels frame structures      479 534
Traffic channels interleave structure      377
Traffic channels interleaving      379—82
Traffic channels modulation      354
Traffic channels power      1135
Traffic channels power control factor      1133 1170
Traffic channels power control loop      1186
Traffic channels read operation order      391
Traffic channels received power      1132
Traffic channels repeated symbols on      367
Traffic channels reverse      see “Reverse traffic channel”
Traffic channels SNR requirements      1132
Traffic channels structure      840
Traffic channels total power      1185
Traffic channels transmitter power      1134
Traffic channels variable baseband data rate      1132
Traffic channels Walsh sequences      354 (see also “Forward link channels”)
Traffic channels Walsh — Hadamard sequences      355
Traffic density base station density vs.      1100—1101
Traffic density cell loading vs.      1102
Traffic density for CCIR model      1104
Traffic density for WIM model      1105
Traffic density user      326 327
Traffic load AMPS signal level vs.      322
Traffic load cell size and      321
Traffic load defined      266
Traffic load system coverage vs.      321—27
Transfer functions      891 893
Transfer functions convolution code      884—87
Transfer functions defined      885—86
Transfer functions error bound      897
Transfer functions error probability overbounded by      895
Transfer functions expanded      886
Transition matrix      670—72
Transmitter filter characteristic      53
Transmitter margin      1159—61

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