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

Doppler-spread function impulse      225
Doppler-spread function use of      225
Double dither loop (DDL)      793
Doubly dispersive channels      234 236
DQPSK modulation diversity performance derivation      996—99
DQPSK modulation EGC diversity reception      998—99
DQPSK modulation error probability for      126
DQPSK modulation over L-fold diversity with selection-diversity reception      940
DQPSK modulation selection diversity performance      996—98
DQPSK modulation under L-fold diversity with EGC reception      961
DQPSK modulation with differential detection      937—38
Dual code      487 508
Dual space      487
Duty cycle      12
Dynamic power allocation      1178—86
Dynamic power allocation illustrated      1180
Dynamic power allocation implementation of      1185—86
Early correlator      791
Early correlator late correlator difference      793
Early correlator output      792
Earth angles      251
Earth fictitious radius      170
Earth smooth model      171 177 252
Effective antenna height      173—74
Effective antenna height definition      173
Effective antenna height empirical formula      173
Effective antenna height siting practice effect on      174
Effective antenna height terrain effect on      174 (see also “Antenna height”)
Electronic serial number (ESN)      364 414
Electronic serial number (ESN)illustrated      416
Electronic serial number (ESN)structure      415
Elevation angles      251—53
Encoders convolutional      848—71
Encoders cyclic code with generator polynomial      514 515 519 525
Encoders cyclic code with parity check polynomial      517 520
Encoders cyclic codes      513—21 527
Encoders for paging channels      351
Encoders MSRG configuration of      519
Encoder’s tail bits      479
Energy spectral density      28
Envelope decision variables      743—44
Envelope detection receiver      736—40
Envelope detection receiver marched filter receiver vs.      739—40
Envelope detection receiver noncoherent      739
Envelope detection receiver optimal      739
Envelopes baseband spectrum of      260
Envelopes complex      221 230 966
Envelopes condition pdf of      122
Envelopes defined      114
Envelopes joint pdf of      115
Envelopes noise      966
Envelopes of multiple paths      258
Envelopes Rayleigh      119
Envelopes Rician      124
Envelopes simulated IS-95 signal      1184
Envelopes spectrum      259
Equal gain combining (EGC)      927 938—64
Equal gain combining (EGC) BPSK modulation under L-fold diversity and      949—60
Equal gain combining (EGC) BPSK performance derivation      993—96
Equal gain combining (EGC) chi-square RV      942
Equal gain combining (EGC) diversity reception of BPSK error performance      960
Equal gain combining (EGC) DQPSK diversity performance derivation.      998—99
Equal gain combining (EGC) DQPSK modulation with      961
Equal gain combining (EGC) for binary symbol modulation      959
Equal gain combining (EGC) M-ary noncoherent orthogonal modulation system      938—46
Equal gain combining (EGC) M-ary performance derivation      988—92
Equal gain combining (EGC) MRC diversity vs.      964
Equal gain combining (EGC) NCBO system reception      963
Equal gain combining (EGC) postdetection receiver      941 957
Ergodic process      781
Erlang B      267—74 294
Erlang B formula      91 270 272 1079 1088
Erlang B moments for      330—31
Erlang B probability      271
Erlang B statistics      267—74
Erlang B table      272 273—74
Erlang B theory      1057 (see also “Blocking formulas”)
Erlang capacity      90 1048 1057—81
Erlang capacity blocking probability as function of      1065 1071—74
Erlang capacity calculations      247
Erlang capacity comparison      1078—80
Erlang capacity defined      1058
Erlang capacity determination of      1058
Erlang capacity equation      1086—87
Erlang capacity multi-FA      1079 1087—89
Erlang capacity number of channels and      1079
Erlang capacity ratio      1080
Erlang capacity single cell      1065
Erlang capacity suburban area      1101
Erlang capacity urban area      1101
Erlang С formula      272
Erlangs      267
Erlangs channel correspondence      318
Erlangs reverse link traffic level in      317
Erlangs sector loading in      321
Erlangs traffic density      1102
Erlangs traffic load      318
Error detection      494—501
Error detection circuits      497 498
Error detection circuits, frame      539
Error detection codes      500—501
Error detection errors in      496
Error detection syndrome calculation by shift register circuits for      521—27
Error function      75
Error performance      720—28
Error performance DDL tracking system      797
Error performance demodulator      755
Error performance in AWGN      720—26
Error performance in Rayleigh fading      727—28
Error probability      699—713
Error probability bit      704
Error probability BPSK system over L-fold diversity      935 936
Error probability BPSK, average      822—23
Error probability calculations      699—700 712
Error probability conditional      701 708
Error probability data symbol      726
Error probability first-event      893 894 901
Error probability for binary antipodal/orthogonal systems      706
Error probability for L-fold diversity      995 998
Error probability for M-ary communications system      707
Error probability for noncoherent binary orthogonal system      742 745
Error probability in NCBO system in AWGN/Rayleigh fading      747
Error probability obtaining      709
Error probability ON functions and      741
Error probability QPSK, average      822—23
Error probability Rayleigh fading      998
Error probability symbol      892
Error probability total first-event      898
Error probability unconditional      704 708
Error probability union bound      708 710
Error probability upper bound      705
Error receivers      677
Error signals coherent DLL      802
Error signals DLL      798
Error signals noncoherent DLL      799
Error signals normalized      798
Error-control coding forward link      341
Error-control coding reverse link      357
Error-control coding schemes      501
Excess power ratio      1154
Exponential Fourier series      37
Exponential probability law      91
Exponential random variables      91
Extension Galois fields      546—76
Extension Galois fields addition table for      549 551
Extension Galois fields clement properties      549
Extension Galois fields conjugate classes      556 556—58
Extension Galois fields defined      546
Extension Galois fields elements      559
Extension Galois fields generating      546—47

Extension Galois fields multiplication table for      549 552
Extension Galois fields nonzero elements in      563
Extension Galois fields primitive element      551—52
Extension Galois fields representation      548 554 567
Extension Galois fields Zech's log table for      551 (see also “Galois fields”)
Fade depth      242
Fade depth defined      242
Fade depth fade rate vs.      244 245
Fade margins      1112 1139
Fade margins asymptotic capacity vs.      1166
Fade margins at mobile receiver      1151
Fade margins forward link power sensitivity to      1144
Fade margins forward link, selection of      1151—62
Fade margins power-limited capacity vs.      1168 1169
Fade margins receiver      1155
Fade margins receiver, limits on      1153
Fade margins required pilot channel transmitter power as function of      1150
Fade margins transmitter      1155
Fade rate      237—47
Fade rate derivation of      256—63
Fade rate fide depth vs.      244 245
Fade rate level crossing rate      261 262
Fade rate maximum      262
Fade rate measurement      261
Fade rate of Rayleigh fading mobile signal      242—44
Fade rate speed vs.      245 246
Fading      302 368
Fading cause of      234
Fading channels flat      236
Fading channels random      229—33
Fading channels types      236
Fading defined      230
Fading duration, average      262—63
Fading factor      978
Fading fast      233 237 369
Fading flat      236
Fading frequency selective      231 234 235
Fading frequency-flat      231
Fading long-term      234 235
Fading Rayleigh      231 242—44 727—28
Fading rime-selective      234 235
Fading short-term      234 235
Fading signal amplitude distribution      240
Fading slow      233
Fading terms      234—37
Fading tracking      927
False alarm detection probability vs.      789 790
False alarm probability      789
False alarm threshold      788
Fast fading      237
Fast fading defined      233
Fast fading signal strength and      369
Fast Walsh transform      474—78
Federal Communications Commission (FCC)      1
Fibonacci configuration      18 19 661
Fibonacci configuration defined      568
Fibonacci configuration illustrated      570
Fibonacci configuration PN sequence generator      644
Fibonacci configuration SSRG      570 604 661
Fibonacci hashing      41 1
Fibonacci numbers      410—11
Filters autocorrelation function      674
Filters bandpass      129
Filters baseband      131—34
Filters Butterworth      131—33
Filters conjugate      698 765
Filters FIR      33—36 59
Filters interpolation      42 43 44
Filters linear      31—32
Filters lowpass      738 752 766 770
Filters matched      693—99 737 766 770
Filters Nyquist      54
Filters pulse-shaping      763 766
Filters RC      55—56
Filters time-invariant      694
Filters transmitter      53
Filters waveshaping      57 58
Finite energy signal      41
Finite fields      447—52
Finite fields additive identity element      450
Finite fields additive inverse clement      450
Finite fields closed      450
Finite fields defined      447
Finite fields Galois      447—48
Finite fields operations      448
Finite fields prime      451
Finite impulse response (FIR) impulse response coefficients      59—60
Finite impulse response (FIR) waveform synthesis      33 (sec also “FIR filters”; “FIR pulse shape”)
FIR filters      33—36
FIR filters design methods      60
FIR filters discrete-time output      59
FIR filters output noise samples      139 140
FIR filters specifications      59
FIR pulse shape      58—64
FIR pulse shape lowpass filter comparison      61
FIR pulse shape truncated sine pulse comparison      61
Flat fading      236
Flow graph diagram      900
Forward error control (FEC)      839
Forward error control (FEC) codes      839
Forward error control (FEC) coding scheme      843
Forward link capacity      1 164—70
Forward link capacity asymptotic      1164—66
Forward link capacity maximal power increase and      1170
Forward link capacity power-limited      1167—70
Forward link channels      334 335 343—46
Forward link channels assignments      342
Forward link channels comparison      367
Forward link channels CRC computations for      533—38
Forward link channels error performance in AWGN      720—26
Forward link channels error performance in Rayleigh fading      727—28
Forward link channels modulation      343 367
Forward link channels optimal demodulator      723
Forward link channels paging      350—53 1129 1131—32
Forward link channels pilot      344—47 1129 1130
Forward link channels power as fraction of total power      1145—46
Forward link channels QPSK modulation      714
Forward link channels SNR requirements      1130—32
Forward link channels synchronization      347—50 1129 1131
Forward link channels traffic      353—56 1129 1132
Forward link channels transmitter configuration for      715
Forward link channels transmitter powers      1140—41
Forward link channels types of      334 343 1129
Forward link cochannel at mobile station      1007
Forward link cochannel effective spectral power density      1003
Forward link cochannel geometry      1006
Forward link cochannel interference      1002—12
Forward link cochannel modeling      1005
Forward link cochannel other-cell      1005—12
Forward link cochannel same cell      1002—5 (see also “Cochannel interference”)
Forward link limited      1046
Forward link power      1129—51
Forward link power allocation      1111 1129—51
Forward link power channel power as fraction of      1145—46
Forward link power control factor      1134—361 185
Forward link power dynamic allocation      1178—86
Forward link power interference      1132—33
Forward link power linear equations      1140
Forward link power parametric variations      1147—51
Forward link power pilot channel      1145
Forward link power received      1133
Forward link power receiver margin vs.      1162
Forward link power required, calculating      142—431 144
Forward link power sensitivity to fade margin      1144
Forward link power solution for      1137—51
Forward link power total      1133—37 1143 1144 1173—74
Forward link power traffic channel      1135 1136
Forward link power zero-margin constraints      1137—38
Forward link traffic channel power control factor      1133
Forward links      340—56

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