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

Главная Ex Libris Книги Журналы Статьи Серии Каталог Wanted Загрузка ХудЛит Справка Поиск по индексам Поиск Форум

Авторизация

Поиск по указателям

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

Обсудите книгу на научном форуме

Нашли опечатку?
Выделите ее мышкой и нажмите Ctrl+Enter

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

Transmitter waveforms      741
Tree diagram      864—66
Tree diagram encoder      868
Tree diagram illustrated      865
Tree diagram state transitions      864
Tree diagram traces      864
Trellis diagram      866—71
Trellis diagram converge of states      881
Trellis diagram defined      866
Trellis diagram encoder      868
Trellis diagram illustrated      866
Trellis diagram with branch metric given by Hamming distance      881
Trigonometric Fourier series      36—37
Troposphere      168—69
Two-ray multipart mobile      180
Two-ray multipart model      20
Two-sided PSD      102—3
Uncoded system      842
Uniform random variables      91—92
Uniform random variables MGF      91—92
Uniform random variables pdf      91
Uniform random variables variance      92 (see also “Random variables”)
Union bound      705—13
Union bound calculating      712
Union bound defined      705—6
Union bound error probability calculation      710
Union bound on conditional error probability      708 709
Union bound on unconditional error probability      708 71
Unit impulse function      49 50
Unit step function      109
Universal Coordinated lime (UTC)      338 663
User traffic density base station density vs.      326 327
User traffic density fractional loading vs.      326 327
Users performance requirements (UPR)      2 3
Validation check      495
Variances Bernoulli RV      89
Variances Binomial RV      90
Variances BPSK      773—74 827—34
Variances computing      637
Variances defined      82
Variances exponential RV      91
Variances Gaussian RV      92 1064
Variances identical      143
Variances multiple access interference      829—30
Variances partial correlation function      638
Variances Poisson RV      90
Variances QPSK      773—74 827—34
Variances total noise      833—34
Variances uniform RV      92
Vector communications systems      679
Vector communications systems M-ary N-dimensional      690
Vector communications systems representation of      680 688
Vector communications systems with coding      917
Vector spaces      452—56
Vector spaces defined      452—53
Vector spaces dimension of      455
Vector spaces linearly independent vectors      455
Vector spaces scalar product in      683
Vector spaces three-dimensional      711
Vector spaces two-dimensional      683—84 685
Vectors 7-tuple      506
Vectors code      481
Vectors commutative group      453
Vectors connection      852—53
Vectors defined      453
Vectors Gaussian      731
Vectors index      456 457 460
Vectors initial state      582
Vectors linear combination      454
Vectors linearly dependent      454
Vectors linearly independent      455 456 481
Vectors loading      576 577 578—84
Vectors mask      590
Vectors noise      690
Vectors properties      453
Vectors received      495 496 500 690
Vectors receiver      688
Vectors sequence      858 859
Vectors shift register      854
Vectors signal      687 709
Vectors state      567
Vectors syndrome      499 500 524
Vectors transmitted      495
Vectors Walsh      456 458
Viterbi algorithm      848 875—82
Viterbi algorithm defined      872
Viterbi algorithm distance path storage      880
Viterbi algorithm sott-decision      922
Viterbi algorithm truncation process      880
Viterbi decoding error-correcting capability      892
Viterbi decoding hard decision      891—95
Viterbi decoding performance bounds      890—96
Viterbi decoding soft-decision      898—903 (see also “Decoding”)
Voice coding      366
Voice coding forward link      341
Voice coding reverse link      357
Voltage controlled oscillator (VCO)      792 805
Walfisch-lkegami model (WlM)      190—99
Walfisch-lkegami model (WlM) base station density vs. traffic density      1105
Walfisch-lkegami model (WlM) cell radius      1028—30
Walfisch-lkegami model (WlM) comparison in LOS region      203
Walfisch-lkegami model (WlM) comparison in Ni.OS situations      204
Walfisch-lkegami model (WlM) defined      190
Walfisch-lkegami model (WlM) effect of base station antenna height calculation      198
Walfisch-lkegami model (WlM) effect of building height calculation      197
Walfisch-lkegami model (WlM) effect of building separation calculation      197
Walfisch-lkegami model (WlM) effect of mobile antenna height calculation      198
Walfisch-lkegami model (WlM) example calculations      196—99
Walfisch-lkegami model (WlM) free-space loss comparison      191
Walfisch-lkegami model (WlM) Longley-Rice comparison      202—4
Walfisch-lkegami model (WlM) LOS propagation      203
Walfisch-lkegami model (WlM) NLOS parameters      192
Walfisch-lkegami model (WlM) NLOS, cell radius      1032—33
Walfisch-lkegami model (WlM) orientation loss      193
Walfisch-lkegami model (WlM) propagation distance power laws      1034 (see also “Propagation formulas”)
Walsh channels fade margin at receiver      1153
Walsh channels forward link      1156 1158
Walsh channels gain implementation      1178
Walsh channels median receiver SNR for      1156
Walsh channels receiver power      1154
Walsh channels relative digital gains      1179
Walsh channels simulated      1183
Walsh channels transmitter margins      1157

Walsh channels weighted      1182
Walsh coded chips      468
Walsh function generation      429 433—60
Walsh function generation with basis vectors      456—60
Walsh function generation with Hadamard matrices      443—47
Walsh function generation with Rademacher functions      438—43
Walsh function generation with shift registers      458
Walsh function orthogonal multiplexing configuration      721
Walsh functions      425—78
Walsh functions * (multiplicative operation) and      437
Walsh functions 64-ary      447
Walsh functions all-zero sequence      775
Walsh functions and      438
Walsh functions axes of symmetry      433
Walsh functions contents of      427
Walsh functions decoding      468—69
Walsh functions definition of      426—30
Walsh functions for channel information recovery      466
Walsh functions forward link      426 460 461—67
Walsh functions forward link orthogonal multiplexing configuration      721
Walsh functions in      426 461—67
Walsh functions indexing of      435
Walsh functions multiplexed waveform      1182
Walsh functions of order 64      434—35 449—50
Walsh functions of order 8      428
Walsh functions orthogonal      461—68
Walsh functions period      785
Walsh functions properties      437
Walsh functions reverse link      425—26 467—68
Walsh functions symbol recovery and      463
Walsh functions symmetry properties      432
Walsh multiplexed waveforms      1182—84
Walsh orthogonal modulation      748
Walsh sequences      341 348
Walsh sequences all-zero      473
Walsh sequences and      438
Walsh sequences base-to-mobile link      366—67
Walsh sequences binary index      447
Walsh sequences code words      474 748
Walsh sequences even symmetry      431
Walsh sequences for orthogonal modulation      364
Walsh sequences generation of      459
Walsh sequences Hadamard matrix rows corresponding to      448
Walsh sequences index vectors      456
Walsh sequences minimum distance of      473
Walsh sequences odd symmetry      431
Walsh sequences of order 16      436 471 472
Walsh sequences of order 64      433 473
Walsh sequences of order 8      430 438
Walsh sequences properties      437
Walsh sequences repeating      425
Walsh sequences reverse link      367
Walsh sequences specifications      430—33
Walsh sequences symmetry axes      474
Walsh sequences traffic channel      354
Walsh symbol      726
Walsh symbol energy      757
Walsh symbol rate      748
Walsh — Hadamard sequences      355 366
Walsh, J.L.      426
Waveform communications system      679
Waveform communications system representation of      680
Waveform communications system with coding      917
Waveform synthesis      679
Waveforms a periodic      41
Waveforms band limited      53—58
Waveforms bandpass      47—49
Waveforms basic      629 631—32
Waveforms CDMA      337 338
Waveforms complex      48
Waveforms continuous      43 44—45
Waveforms energy measurement with samples      47
Waveforms FM      2
Waveforms geometric representation of      681
Waveforms impulse response      54
Waveforms lowpass      44—45 47
Waveforms noise      64 65—66 725 1184
Waveforms nonperiodic      630
Waveforms OQPSK      750
Waveforms periodic      41 630
Waveforms PN      63 638
Waveforms random      64
Waveforms received      765
Waveforms rectangular      29
Waveforms requirements      53
Waveforms reverse link      750—61
Waveforms time      1184
Waveforms transmitted      763
Waveforms transmitter      741
Waveforms vector representation of      679—87 681
Waveforms Walsh      1182—84
Waveforms white noise      137
Waveshaping filters      57 58
Waveshaping techniques      56
Weldon, E.J.      560 561
White Gaussian noise      102—5 824
White Gaussian noise autocorrelation function      103
White Gaussian noise bandlimited      103
White Gaussian noise defined      102
White Gaussian noise ideal lowpass filter with      103
White Gaussian noise RVs      105
White Gaussian noise terms      824
White noise autocorrelation function      103 835
White noise bandlimited      103—4 126—28
White noise filtering results      134
White noise Fourier transform of      830
White noise integrated, parameters      823—27
White noise spectral density      725
White noise through lowpass filter      766
White noise waveform simulation      137
Wiener — Kinchine theorem      96 99
Windowing ripple effects      34
Woodward notation      38 643
Word-error probability      759
Word-error probability bit-error probability from      761
Word-error probability for noncoherent M-ary orthogonal system      760
Word-error probability obtaining      761—63
Zech's log table      550
Zech's log table constructing      550
Zech's log table for extension Galois fields      551
Zero insertion      645 647
Zero-adding technique      648
“Communications in the Presence of Noise”      46

1 2 3 4 5 6 7 8 9 10 11

О проекте