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

Forward links CAI summary      340—41
Forward links cell radius      1022—23
Forward links convolutional code performance      911
Forward links convolutional encoder for      908
Forward links coverage area      1171
Forward links effective bandwidth      341
Forward links error-control coding      341
Forward links fade margins, selection of      1151—62
Forward links interference reaction      340
Forward links interleaving      341
Forward links modulation      340—41
Forward links multipath/base station diversity      392
Forward links multiple access scheme      425
Forward links multiplexing      340
Forward links net losses on      1136—37
Forward links operations      340—46
Forward links optimal fraction of power      1047
Forward links path loss calculation      371
Forward links PN chip rate      341
Forward links power      1011 1039
Forward links power budget      1033—39
Forward links power control      373
Forward links propagation loss      1171
Forward links pulse shaping      341
Forward links QPSK modulation in      713—28
Forward links quadrature modulation      347
Forward links quadrature spreading for      342—43
Forward links received base station power      370
Forward links receiver margin      1175
Forward links reverse links vs.      366—67
Forward links time domain      390
Forward links too strong      1044
Forward links too weak      1045
Forward links total interference      1009
Forward links transmission loss      1035
Forward links voice coding      341
Fourier series      36—41
Fourier series exponential      37
Fourier series trigonometric      36—37
Fourier transform      26
Fourier transform discrete      137 642
Fourier transform inverse      26—27 34 48 766
Fourier transform of autocorrelation function      96 642
Fourier transform of Comb function      40
Fourier transform of linear filter impulse response      27
Fourier transform of periodic function      37—41
Fourier transform of real-time signal      48
Fourier transform of Rect function      29
Fourier transform of rectangular waveforms      29
Fourier transform of white noise      830
Fourier transform pairs      27 28
Fourier transform pairs for ideal filter      31
Fourier transform pairs Rect/sinc      30
Fourier transform pairs Rep/Comb      39 828
Frame quality indicators (FQIs)      531—33
Frame quality indicators (FQIs) 12-bit      534
Frame quality indicators (FQIs) 8-bit      534
Frame quality indicators (FQIs) bits      479
Frame quality indicators (FQIs) defined      485 531
Frame quality indicators (FQIs) detectors      533
Frame quality indicators (FQIs) forward traffic channel      535
Frame quality indicators (FQIs) generator polynomial      534
Frame quality indicators (FQIs) reverse traffic channel      538
Free distance      886
Free distance defined      883
Free distance minimum      886 891
Free space attenuation relative to      181
Free space electric field intensities      179
Free space loss      167 168 181
Free space permittivity      179
Free space propagation loss      190
Free-space propagation      165—67
Free-space propagation cellular concept and      290
Free-space propagation electric field intensity and      166 179
Frequency diversity      928
Frequency domain convolutional theorem      29 34 40
Frequency domain interpolation of samples      42
Frequency domain sampling theorem in      41—43
Frequency hopping (FH) spread implementation      16
Frequency hopping (FH) spread spectrum      14—16
Frequency hopping (FH) spread waveform pattern      14 15
Frequency modulation (FM) waveforms      2
Frequency reuse      275—77
Frequency reuse cluster size for      287
Frequency reuse distance      297 298
Frequency reuse multicell clustering and      293
Frequency separation      223
Frequency transfer function      221—24
Frequency transfer function defined      221
Frequency transfer function time-varying      222
Frequency-division duplexing (FDD)      1
Frequency-division multiple access (FDMA)      2
Frequency-division multiple access (FDMA) capacity      6 12 14
Frequency-division multiple access (FDMA) CDMA capacity vs.      14
Frequency-division multiple access (FDMA) cellular frequency allocations      336 337
Frequency-division multiple access (FDMA) cellular systems      265
Frequency-division multiple access (FDMA) channel assignments      300
Frequency-division multiple access (FDMA) Erlang capacity comparison      1078—80
Frequency-division multiple access (FDMA) frequency reuse pattern      1022
Frequency-division multiple access (FDMA) illustrated      4
Frequency-division multiple access (FDMA) orthogonal signaling requirements and      6
Frequency-division multiple access (FDMA) time-frequency plane      3 (see also “Multiple access techniques”)
Frequency-flat fading      231
Frequency-selective fading      231 234 235
Fresnel zones      181 182
Fresnel zones boundary      189
Fresnel zones clearance      184
Fresnel zones first      183—84
Fresnel zones ground reflection points within      183
Full-wave quadratic rectifier transformation      77 79
Gains antenna      288 1042 1046
Gains coding      842—43 903—6 913—16
Gains delay-lock loop and      796
Gains diversity      949
Gains handoff      310 315 316 1048 1055 1056
Gains link margin      311
Gains multipath      979
Gains power      1178 1181
Gains processing      10 11 18 21—23 544
Gains relative      971 1178 1179
Gains shadowing      193
Gains Walsh channel      1179
Galois configuration      18 19 650
Galois configuration defined      568
Galois configuration illustrated      571
Galois fields      447—48
Galois fields addition/multiplication tables      451 452
Galois fields defined      447—48
Galois fields element sequence representation      563
Galois fields elements      447 451
Galois fields extended      504 530 546—76
Gamma distribution      143
Gaussian approximation      1060
Gaussian channels      687—90
Gaussian distribution      75
Gaussian distribution multivariate      93—94
Gaussian distribution probability functions of      76
Gaussian hypergeometric function      149 164 258 995
Gaussian noise      752
Gaussian noise white      102—5 824
Gaussian noise zero-mean      969
Gaussian Q-function      703
Gaussian random process      101—2
Gaussian random vectors      731
Gaussian RVs      85—86 110
Gaussian RVs CHF for      85
Gaussian RVs correlation coefficient between      313
Gaussian RVs independent      86 121 135 826
Gaussian RVs jointly      101 102
Gaussian RVs mean      1064

Gaussian RVs MGF      92 112
Gaussian RVs normalization      744
Gaussian RVs square-law transformation of      143
Gaussian RVs squared      143
Gaussian RVs unit-variance      143 146
Gaussian RVs variance      92 1064
Gaussian RVs zero-mean      110 135 743 751 755 827
Gaussian thermal noise      105
Gaussian-shaped baseband filters      133—34
Generator matrix      481 856
Generator matrix defined      456
Generator matrix definition      482
Generator matrix linear code      491
Generator matrix of systematic code      485—86 490
Generator matrix row vector storage      483
Generator matrix semi-infinite      857
Generator polynomials      505 506 508 522
Generator polynomials convolutional encoder representation      858—60
Generator polynomials degree of      508
Generator polynomials encoder of cyclic codes with      514 515 519 525
Generator polynomials FQI      534
Global Positioning System (GPS)      335
Global Positioning System (GPS) base station synchronization to      339
Global Positioning System (GPS) Link 2(L2)      663 664 665
Global Positioning System (GPS) Link l (L1)      663 664
Global Positioning System (GPS) signal structure      663—65
Global Positioning System (GPS) time      338
Golay code      503
Gold codes      654—56 661
Gold codes arbitrary phase shifts of      665
Gold codes defined      658
Gold codes generation      658—59
Gold codes GPS signal structure and      663—65
Gold sequence generator      659 662
Gold sequences      658
Golden ratio      409—11
Golden ratio defined      409
Golden ratio hashing use of      411
Gram — Schmidt orthogonalization      680
Gram — Schmidt orthogonalization applying      819
Gram — Schmidt orthogonalization defined      817
Gram — Schmidt orthogonalization procedure      816—22
Gray code sequences      440—41 442
Gray codes      458
Group code      489
Group code Hamming codes defined as      501
Group code parity check matrix for      502—3
Hadamard functions      445
Hadamard matrices      341 348 443—47 459
Hadamard matrices $2\times 2$       443
Hadamard matrices $N\times N$       443
Hadamard matrices binary row number sequences      447
Hadamard matrices defined      443
Hadamard matrices rows corresponding to Walsh sequences      448
Hadamard matrices tows of degree      16 446
Hamming codes      501—4
Hamming codes defined as group code      501
Hamming codes parity check matrix of      502
Hamming codes single-error-correcting      501 522
Hamming distance      473
Hamming distance accumulated      882 884
Hamming distance between brunch word and symbols      876
Hamming distance branch metric given by      881
Hamming distance defined      472
Hamming distance incorrectly selecting path with      893 894
Hamming distance metrics      882
Hamming distance minimum, decoding rule      871—75 876
Hamming distance nonzero paths with      893
Hamming distance total      877
Hamming distance trellis diagram      883
Hamming distance trellis with branch metric      877
Handoff excessive, preventing      1055
Handoff gun      310 315 316 1048 1055 1056
Handoff hard      309 397
Handoff initiation      391
Handoff soft      309 310—12 315 397 1116
Hard handoff      397
Hard handoff defined      30l
Hard handoff gain      310 315
Hard-decision decoding      910
Hash function      353 407—17
Hash function defined      407—8
Hash function example      411—14
Hash function Fibonacci      414
Hash function kernel behavior      413
Hash function kernel uniformity      412
Hash function kernel values      411
Hash function normalized      408
Hash function parameters      415
Hash function uniformity      411
Hash keys      408 414
Hash keys computing      415
Hash keys determining      414
Hash keys tot paging channel number determination      417
Hata model      187—90
Hata model defined      187
Hata model, CCIR formula comparison      189
Hata model, cell radius      1025
Hata model, effective power law      189
Hata model, formula      187
Hata model, propagation distance power laws      1034
Hata model, propagation loss      189 (see also “Propagation formulas”)
Hexagonal cells clusters of      282—84
Hexagonal cells patterns      279 (see also “Cells”; “Cellular”)
I-channel carrier amplitude      723
I-channel despreading      806
I-channel despreading energy      810
I-channel despreading results comparison      813
I-channel despreading waveform      811
I-channel filtering effects      725
I-channel mask      621
I-channel mask output      622
I-channel mask short-code generator      623 (see also “Masks”)
I-channel matched lowpass filter      770
I-channel OQPSK      718
I-channel PN code sequences      749 777 782 795
I-channel PN codes      1183
I-channel PN waveform      810
I-channel QPSK      718
I-channel symbols      720 (see also “Q-channel”)
Ideal capacity equation      1083—84
Identity element      437
Identity matrix      670
Impulse response bandpass filter      129
Impulse response discrete-time filter      51
Impulse response encoder representation      853—58
Impulse response FIR      58 59—60
Impulse response linear system      27 32 98
Impulse response Nyquist pulse      675
Impulse response of convolutional encoder      855
Impulse response of ideal filter #2      158—59
Impulse response RC filter      58 160—61
Impulse response waveform      54
In-phase components      115 119
In-phase PN generator      346
Incomplete gamma function      163
Independent RVs Gaussian      86 121 135
Independent RVs uniform      135
Index vector      456 457 460
Inequalities Q-function      925
Inequalities Schwarz      697 968
Infinite bandwidth Shannon capacity limit      846
Initial state polynomials      581
Instant Walsh Functions      429
Integration limit      994
Interchip interference (ICI)      807
Interchip interference (ICI) energy      809
Interchip interference (ICI) intersymbol      827
Interference acceptable      1127
Interference base station receiver      1040

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