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

Interference cell loading and      1021
Interference cochannel      286—87 289 298 836 1002—12
Interference cross-quadrature      836
Interference degree of      1058
Interference interchip (ICI)      807 827
Interference intersymbol (LSI)      52 768 773—74 827
Interference margin requirement with      1052—53
Interference multiple access      21 827—28 829—30
Interference other-cell      1005—12 1013—17 1037
Interference power      10—11
Interference power average      1005
Interference power defined      10
Interference power forward link      1012 1132—33
Interference power intersymbol      773
Interference power MA      774 831—33
Interference power other-cell      1005 1007 1008
Interference power reverse link      1017
Interference power spectral density      11 1033
Interference power total forward link power comparison      1009 1012
Interference power total received      1059 1082
Interference ratio cluster size vs.      288—93
Interference ratio spectral efficiency and      293—96
Interference reducing      425
Interference rejection      340
Interference reverse link      364
Interference same-cell      1002—5 1012—13 1037
Interference total factor      1147
Interference total forward link      1009
Interference-to-forward link power ratio      1009 1010
Interleaves access channel      385
Interleaves block      374—75
Interleaves convolutional      399 400
Interleaves design      405—7
Interleaves input/output      402 403
Interleaves minimum separation of      376
Interleaves paging channel      377
Interleaves performance      374
Interleaves reverse traffic channel      386
Interleaves structure      407
Interleaves traffic channel      377 383
Interleaving      348 374—88
Interleaving block      374 398—99
Interleaving convolutional      374
Interleaving defined      374 929
Interleaving for time diversity      928—29
Interleaving forward link      341
Interleaving paging channels      351 379—80
Interleaving performance      407
Interleaving purpose      405
Interleaving reverse link      357 383
Interleaving reverse traffic channel      386 387 388 389 390
Interleaving sync channel      348 376 378
Interleaving techniques      374—88
Interleaving theory      398—407
Interleaving traffic channels      379—82 (see also “Deinterleaving”)
International mobile station identity (IMSl)      414 415 416
International Telecommunications Union (ITU)      190
Interpolation filter      42
Interpolation filter for frequency-domain sampling theorem      43
Interpolation filter for time-domain sampling theorem      44
Intersymbol interference (ISI)      52 768
Intersymbol interference (ISI) interchip      774 827
Intersymbol interference (ISI) minimizing/eliminating      54
Intersymbol interference (ISI) QPSK vs. BPSK      773
Inverse element      437
Inverse Fourier transform      26—27 34 48 766
Inverse operations      450
Irreducible polynomials      546 660
Irreducible polynomials binary      554 562
Irreducible polynomials degree-5      558
Irreducible polynomials monic      562
Irreducible polynomials primitive      557
Irreducible polynomials root of      556 (see also “Polynomials”)
IS-54 standard      2 6
IS-95      3 333—423
IS-95 baseband filters      33
IS-95 capacity      7 13
IS-95 capacity issues      10—14
IS-95 channel illustration      335
IS-95 channels      334
IS-95 convolutional codes      839—925
IS-95 data frames      478—80
IS-95 defined      333
IS-95 FD/CDMA techniques      3
IS-95 FIR pulse shaping      58—64
IS-95 forward link channels      334 335
IS-95 hash function      407—17
IS-95 interface illustration      333—34
IS-95 long PN codes      611—16
IS-95 modulation schemes      713—63
IS-95 PN code waveform      62
IS-95 PN sequences      611—18
IS-95 power control      368—73
IS-95 pulse shape      60 62
IS-95 Rake concept in      981—82
IS-95 reverse link channels      334 335 346 356—67
IS-95 RNG      418—23
IS-95 search window parameters      1122—24
IS-95 sections      333
IS-95 short PN codes      616—18
IS-95 Walsh functions      425—78
IS-95 waveshaping filter implementation      58
Isotropic antenna gain      1042
Isotropic radiator      165
Jacobian of the transformation method      116—17 121 136
Jamming margin      8—9
Jamming power      21—23
Joint moments      83—84
Joint probability density function      67 70
Joint probability density function cumulative      71
Joint probability density function defined      73
Knife-edge geometry      184
Knife-edge geometry diffraction loss      186
Knife-edge geometry illustrated      185
Knife-edge obstacles      254
Kronecker delta      32 49 679
Kummer’s transformation      991—92
L-fold diversity      930—31 933 938
L-fold diversity binary error probability      995
L-fold diversity BPSK modulation under      949—60
L-fold diversity DQPSK modulation under      961
L-fold diversity EGC      949—60
L-fold diversity probability of error      998
L-fold diversity probability of symbol error      942 (see also “Diversity”)
Laguerre polynomials      943—44
Late correlator      791
Late correlator early correlator difference      793
Late correlator output      792
Least common multiple (LCM)      530
Leftover margin      9
Level crossing rate      261 262
Likelihood function      677—713
Likelihood function defined      678
Likelihood function form of      688
Likelihood function quantization levels and      918
Line-of-sight (LOS) distance      176
Line-of-sight (LOS) path loss      253—54
Line-of-sight (LOS) paths      177 178
Line-of-sight (LOS) propagation loss      182 190—91 202
Line-of-sight (LOS) ray path geometries      178
Line-of-sight (LOS) region propagation      177—84
Linear block codes      480—504
Linear dependence      454 817
Linear feedback shift register (LFSR)      18 19 342
Linear feedback shift register (LFSR) binary storage device      562
Linear feedback shift register (LFSR) circuits      504 521
Linear feedback shift register (LFSR) for binary sequence generation      544
Linear feedback shift register (LFSR) k-stage, encoding with      516—17
Linear feedback shift register (LFSR) mechanization of      562—71
Linear feedback shift register (LFSR) MSRG configuration      458

Linear feedback shift register (LFSR) of characteristic polynomial      513
Linear feedback shift register (LFSR) sequence generator      544
Linear feedback shift register (LFSR) SSRG configuration      568
Linear independent      455 817
Linear systems      24—32
Linear systems amplitude characteristic      32
Linear systems convolutional encoder as      853
Linear systems Fourier transform pair for      31
Linear systems impulse response      32 98
Linear systems in time/frequency domains      28
Linear systems input/output random processes of      97—98
Linear systems Parseval’s theorem and      28
Linear systems time-invariant      24—25
Link balancing      1039 1043—47
Link balancing capacity      1162—77
Link balancing defined      1043—44
Link balancing design      1044
Link balancing factor      1045—46
Link budget AMPS      303
Link budget components      303
Link budget for reverse link      369
Link budget generic equation      1049
Link budget including margin      1049
Link budget modified      1050
Link budget parameter summary      323 324
Link budget reverse link parameters      1092
Link budget SNR requirement and      304
Link margin      306—9
Link margin comparisons      1056
Link margin defined      307
Link margin for diversity reception and soft handoff      1053—56
Link margin for soft handoff      315 1084
Link margin gain      311
Link margin link budget including      1049
Link margin multicell      309—17
Link margin no interference      1049—51
Link margin numerical examples of      11 58—62
Link margin power control and      1051—52
Link margin receiver vs. total forward link power      1162
Link margin receiver vs. transmitter      1159—61
Link margin relative      316 1054 1055
Link margin reliability      307 308 1048—57
Link margin single cell      308—9 1051
Link margin with interference      1052—53
Link margin with/without extended range      311
Link reliability      1048—57
Link reliability 90%      1051 1054 1085
Link reliability increasing      1084
Link reliability link margin and      1048—57 1085
Link reliability signal power effect on      1085
Link reliability value comparison      1055
Loading vectors      578—84
Loading vectors calculating      577
Loading vectors numerator polynomial calculation from      577
Loading vectors SSRG implementation with      576
Lognormal approximation      1060
Lognormal RVs      150—54
Lognormal RVs defined      150
Lognormal RVs moments of      153—54
Lognormal RVs pdf      152—53
Lognormal RVs shadow zone      151
Lognormal shadowing      247 306
Long PN codes      611—16
Long PN codes generator      613 616
Long PN codes mask      613 614
Long PN codes phase shift      613
Long PN codes transition matrix, computing      670—72 (see also “PN codes”)
Long-term fading      234
Long-term fading cause of      235
Long-term fading illustrated      235 (see also “Fading”)
Longley-Rice model      150—51 199—202
Longley-Rice model calculations      201
Longley-Rice model comparison in LOS region      203
Longley-Rice model comparison in NLOS situations      204
Longley-Rice model output      199 200
Longley-Rice model parameters      200
Longley-Rice model propagation loss standard deviation      247
Longley-Rice model TIREM model vs.      202
Longley-Rice model WIM comparison      202—4 (see also “Propagation models”)
Lowpass filters bandwidth      752
Lowpass filters matched      766 770
Lowpass filters post-heterodyne      738
Lowpass filters white noise through      766
Lowpass noise      138
Lowpass waveforms      44—5 47
M-ary communications system envelope detection receiver      736—40
M-ary communications system error probability for      707
M-ary communications system N-dimensional      690
M-ary KSK (MKSK)      759
M-ary KSK (MKSK) error performance      946
M-ary KSK (MKSK) noncoherent (NCMFSK)      933—34
M-ary KSK (MKSK) Rayleigh fading with      946—49
Maclaurin series expansion      88
Marginal probability density function      71
Mask polynomials arbitrary      595 600
Mask polynomials finding      596
Mask polynomials MSRGs with      600
Mask polynomials setting      592
Mask polynomials SSRGs with      595
Mask vectors      590
Masks calculating      597
Masks code shift location      616
Masks formula for      592
Masks generation      569
Masks I-channel      621 622 623
Masks long PN code      613 614
Masks MSRG      592 601 602 605
Masks output      647—48
Masks prefixes      61 5
Masks Q-channel      621 622 623
Masks redundant format of      614
Masks sequence shifts, obtaining with      647
Masks sequence shifts, relationship with      593—623
Masks shift register      593
Masks short PN code      618—23
Masks specification of      590
Masks SSRG      592 596—97 598—99
Masks starting point of      615 616
Masks to select sequence phase shift      589—93
Matched filter decoding      478
Matched filter receivers      693—99
Matched filter receivers envelope detector receiver vs.      739—40
Matched filter receivers noncoherent      736
Matched filters      693—99
Matched filters defined      694
Matched filters illustrated      694
Matched filters lowpass      766 770
Matched filters ML receiver implementation      696
Matched filters output      698—99 737
Matched filters to bandpass signal      737
Matcum’s Q-function      789 937
Matcum’s Q-function approximation to      126 789
Matcum’s Q-function defined      124
Maximal length sequences      see “PN sequences”
Maximal-ratio combining (MRC)      927 964—72
Maximal-ratio combining (MRC) defined      964
Maximal-ratio combining (MRC) diversity reception illustration      965
Maximal-ratio combining (MRC) diversity reception receiver      972
Maximal-ratio combining (MRC) dual-channel      969 970
Maximal-ratio combining (MRC) EGC diversity vs.      964
Maximal-ratio combining (MRC) example of      969—72
Maximal-ratio combining (MRC) implementation      969
Maximal-ratio combining (MRC) optimality proof      965—69
Maximal-ratio combining (MRC) principle      966
Maximal-ratio combining (MRC) Rake receiver and      979
Maximal-ratio combining (MRC) use of      964 (see also “Diversity techniques”)
Maximum a posteriori probability (MAP)      689
Maximum a posteriori probability (MAP) decision criterion      689 690
Maximum a posteriori probability (MAP) decision rule      873
Maximum correlation decision rule      692

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