Multi-Carrier and Spread Spectrum Systems: From OFDM and MC ...

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212 Implementation Issues[42] Kaiser S. and Höher P., “Performance of multi-carrier CDMA systems with channel estimation in twodimensions,” in Proc. IEEE International Symposium on Personal, Indoor and Mobile Radio Communications(PIMRC ’97), Helsinki, Finland, pp. 115–119, Sept. 1997.[43] Kamal S. S. and Lyons R. G., “Unique-word detection in TDMA: acquisition and retention,” IEEE Transactionson Communications, vol. 32, pp. 804–817, 1984.[44] Kammeyer K.-D., Petermann T., and Vogeler S., “Iterative blind channel estimation for OFDM receivers,”in Proc. International Workshop on Multi-Carrier Spread Spectrum and Related Topics (MC-SS 2001),Oberpfaffenhofen, Germany, pp. 283–292, Sept. 2001.[45] Karam G., Analysis and Compensation of Non-linear Distortions in Digital Microwaves Systems, ENST-Paris, 1989, PhD thesis.[46] Ketchum J. W. and Proakis J. G., “Adaptive algorithms for estimating and suppressing narrow band interferencein PN spread spectrum systems,” IEEE Transactions on Communications, vol. 30, pp. 913–924,May 1982.[47] Li Y., “Simplified channel estimation for OFDM systems with multiple transmit antennas,” IEEE Transactionson Wireless Communications, vol. 1, pp. 67–75, Jan. 2002.[48] Li Y., Cimini L. J., and Sollenberger N. R., “Robust channel estimation for OFDM systems with rapiddispersive fading channels,” IEEE Transactions on Communications, vol. 46, pp. 902–915, July 1998.[49] Li Y., Seshadri N., and Ariyavisitakul S., “Channel estimation for OFDM systems with transmitterdiversity in mobile wireless channels,” IEEE Journal on Selected Areas in Communications, vol. 17,pp. 461–471, March 1999.[50] Li Y., Winters J. H., and Sollenberger N. R., “MIMO-OFDM for wireless communications: Signal detectionwith enhanced channel estimation,” IEEE Transactions on Communications, vol. 50, pp. 1471–1477,Sept. 2002.[51] Lin S. and Costello D, Error Control Coding: Fundamentals and Applications, Englewood Cliffs, NewJersey: Prentice Hall, 1983.[52] Luise M., Reggiannini R., and Vitetta G. M., “Blind equalization/detection for OFDM signalsover frequency-selective channels,” IEEE Journal on Selected Areas in Communications, vol. 16,pp. 1568–1578, Oct. 1998.[53] MacKay D. J. and Neal R. M., “Good codes based on very sparse matrices,” in Proc. 5th The Instituteof Mathematics and its Applications (IMA) Conference 1995, pp. 100–111, 1995.[54] MacKay D. J. and Neal R. M., “Near Shannon limit performance of low density parity check codes,”Electronics Letters, vol. 33, pp. 457–458, Mar. 1997.[55] Massey J., “Optimum frame synchronization,” IEEE Transactions on Communications, vol. 20,pp. 115–119, April 1997.[56] Mignone V. and Morello A., “CD3-OFDM: a novel demodulation scheme for fixed and mobile receivers,”IEEE Transactions on Communications, vol. 44, pp. 1144–1151, Sept. 1996.[57] Milstein L. B., “Interference rejection techniques in spread spectrum communications,” Proceedings ofthe IEEE, vol. 76, pp. 657–671, June 1988.[58] Minn H. and Bhargava V. K., “An investigation into time-domain approach for OFDM channel estimation,”IEEE Transactions on Broadcasting, vol. 46, pp. 240–248, Dec. 2000.[59] Minn H., Kim D. I., and Bhargava V. K., “A reduced complexity channel estimation for OFDM systemswith transmit diversity in mobile wireless channels,” IEEE Transactions on Communications, vol. 50,pp. 799–807, May 2002.[60] Moose P. H., “A technique for orthogonal frequency division multiplexing frequency offset correction”,IEEE Transactions on Communications, vol. 42, pp. 2908–2914, Oct. 1994.[61] Morelli M. and Mengali U., “A comparison of pilot-aided channel estimation methods for OFDM systems,”IEEE Transactions on Signal Processing, vol. 49, pp. 3065–3073, Dec. 2001.[62] Müller A., “Schätzung der Frequenzabweichung von OFDM-Signalen,” in Proc. ITG-Fachtagung MobileKommunikation, ITG-Fachberichte 124, Neu-Ulm, Germany, pp. 89–101, Sept. 1993.[63] Müller A., European Patent 0529421A2-1993, Priority date 29/08/1991.[64] Muquet B., de Courville M., and Duhamel P., “Subspace-based blind and semi-blind channel estimationfor OFDM systems,” IEEE Transactions on Signal Processing, vol. 50, pp. 1699–1712, July 2002.[65] Necker M, Sanzi F., and Speidel J., “An adaptive Wiener filter for improved channel estimation in mobileOFDM-systems,” in Proc. IEEE International Symposium on Signal Processing and Information Technology,Cairo, Egypt, pp. 213–216, Dec. 2001.
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Multi-Carrier andSpread SpectrumSys
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This edition first published 2008©
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Contentsix4.3.2 One-Dimensional Cha
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ForewordThis book discusses multi-c
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Preface (First Edition)Nowadays, mu
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AcknowledgementsThe authors would l
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2 Introductionambitious technologic
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4 IntroductionTables 1 and 2 summar
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6 IntroductionPower densityTimeFreq
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8 Introductiona high immunity again
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10 Introductionprocessing gain P G
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12 Introductionand interactive mult
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14 Introduction[43] Saltzberg, B. R
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16 FundamentalsBSTSFigure 1-1Time-v
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18 Fundamentalswhere p =|a p | 2 (1
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20 Fundamentalssuch that the effect
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22 FundamentalsTable 1-2 Delay powe
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24 Fundamentals(i) Fixed Positioned
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26 Fundamentalson sub-channel n of
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28 Fundamentals10 010 −1OFDM (OFD
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30 Fundamentalsin order to achieve
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32 FundamentalsThe discrete length
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34 FundamentalsThe following matrix
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36 FundamentalsTable 1-11Wireless l
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38 FundamentalsFrequency hopping (F
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40 FundamentalsFinally, a threshold
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42 Fundamentals1.3.3 Applications o
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44 FundamentalsTable 1-12Radio link
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46 FundamentalsOrthogonalV-SF codeF
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{{48 Fundamentalsdata symbolsspread
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50 FundamentalsCellular Mobile Radi
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52 Fundamentals[27] Haindl B., “M
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2MC-CDMA and MC-DS-CDMAIn this chap
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MC-CDMA 57whered = (d (0) ,d (1) ,.
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MC-CDMA 59i.e. the spreading is per
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MC-CDMA 61Table 2-1 PAPR bounds of
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MC-CDMA 632.1.4.4 Rotated Constella
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MC-CDMA 65After inverse OFDM the re
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MC-CDMA 67and requires only informa
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MC-CDMA 69hard interference evaluat
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MC-CDMA 71Thedataofthedesireduserk
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MC-CDMA 73L corresponds to the spre
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MC-CDMA 752.1.7 Combined Equalizati
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MC-CDMA 77broadcasting, WLAN, and W
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MC-CDMA 792.1.8.1 Log-Likelihood Ra
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MC-CDMA 81For coded MC-CDMA systems
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MC-CDMA 83where Q different user gr
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MC-CDMA 85Table 2-2MC-CDMA system p
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MC-CDMA 87first iteration. The opti
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MC-CDMA 8910 010 −110 −2BER10
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MC-CDMA 9110 010 −1BER10 −210
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MC-CDMA 9310 010 −110 −2BER10
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MC-DS-CDMA 95c (k) (t)f 00d (k)S/P+
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MC-DS-CDMA 97The user-specific dela
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MC-DS-CDMA 9910 010 −1BER10 −21
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References 101[7] Brüninghaus K. a
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References 103[49] Steiner B., “U
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106 Hybrid Multiple Access SchemesI
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108 Hybrid Multiple Access Schemesw
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110 Hybrid Multiple Access Schemest
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112 Hybrid Multiple Access SchemesO
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114 Hybrid Multiple Access SchemesT
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116 Hybrid Multiple Access SchemesA
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120 Hybrid Multiple Access Schemest
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122 Hybrid Multiple Access SchemesA
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126 Hybrid Multiple Access Schemes[
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4Implementation IssuesA general PHY
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Multi-Carrier Modulation and Demodu
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Synchronization 139The performance
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Synchronization 141null symbol as a
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Synchronization 143resulting SNR ca
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Synchronization 145SNR Degradation
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Synchronization 147FFTr(k)estimated
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Synchronization 149the timing error
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Synchronization 151A first simple s
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Synchronization 153Transmitted 2 re
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Channel Estimation 155Special cases
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Channel Estimation 157The mean squa
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Channel Estimation 159by the second
Page 181 and 182: Channel Estimation 161Given the nor
Page 183 and 184: Channel Estimation 163and f D, filt
Page 185 and 186: Channel Estimation 16510 010 −110
Page 187 and 188: Channel Estimation 16710 010 −13
Page 189 and 190: Channel Estimation 169in order to r
Page 191 and 192: Channel Estimation 17110 010 −1BU
Page 193 and 194: Channel Estimation 173timefreq. 00
Page 195 and 196: Channel Coding and Decoding 1754.4.
Page 197 and 198: Channel Coding and Decoding 177Tabl
Page 199 and 200: Channel Coding and Decoding 179a (k
Page 201 and 202: Channel Coding and Decoding 181n rk
Page 203 and 204: Channel Coding and Decoding 183Bit
Page 205 and 206: Channel Coding and Decoding 185Bit
Page 207 and 208: Signal Constellation, Mapping, De-M
Page 209 and 210: Signal Constellation, Mapping, De-M
Page 211 and 212: Adaptive Techniques in Multi-Carrie
Page 213 and 214: RF Issues 193hence reduce, for inst
Page 215 and 216: RF Issues 195s(t)r(t)e jf(t)White n
Page 217 and 218: RF Issues 197receivedsignalto detec
Page 219 and 220: RF Issues 1994.7.2.1 Effects of Non
Page 221 and 222: RF Issues 2011e−011e−02UplinkDo
Page 223 and 224: RF Issues 203of data pre-distortion
Page 225 and 226: RF Issues 205Table 4-8Minimum total
Page 227 and 228: RF Issues 207Detection strategyIn t
Page 229 and 230: RF Issues 209above formula becomes(
Page 231: References 211[21] Fazel K., “Nar
Page 235 and 236: 5Applications5.1 IntroductionThe de
Page 237 and 238: Introduction 217high speed as well
Page 239 and 240: 3GPP Long Term Evolution (LTE) 219H
Page 241 and 242: 3GPP Long Term Evolution (LTE) 221U
Page 243 and 244: 3GPP Long Term Evolution (LTE) 2231
Page 247 and 248: 3GPP Long Term Evolution (LTE) 227T
Page 249 and 250: 3GPP Long Term Evolution (LTE) 229C
Page 257 and 258: WiMAX 237Table 5-12 Downlink LTE sp
Page 259 and 260: WiMAX 239Wi-FiBusinessTSWiMAX BSTSM
Page 261 and 262: WiMAX 241Table 5-16Summary of the I
Page 263 and 264: WiMAX 243WiMAXInteroperabilityInter
Page 265 and 266: WiMAX 245UNIAirinterfaceSNITerminal
Page 267 and 268: WiMAX 247Radio ResourceControlIniti
Page 269 and 270: WiMAX 249Frame n−1 Frame n Frame
Page 271 and 272: WiMAX 251Read RF-Channel ListScan F
Page 273 and 274: WiMAX 253NormaloperationTS measures
Page 275 and 276: WiMAX 255Table 5-18Example of some
Page 277 and 278: WiMAX 257Total bandwidth (between 1
Page 279 and 280: WiMAX 259Sub-carriers (frequency)n0
Page 281 and 282: ApplicationsWiMAX 261Table 5-23 Gen
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WiMAX 263Table 5-27(OFDMA)FEC codin
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WiMAX 265M-QAMMappingSTC withSpatia
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WiMAX 267Frame n−1 Frame n Frame
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WiMAX 269Table 5-29WirelessMAN-OFDM
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WiMAX 2710Power density in dB−25
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WiMAX 273Table 5-37diversityPeak da
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WiMAX 275Table 5-41DL link budget e
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Future Mobile Communications Concep
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Wireless Local Area Networks 283MTB
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Wireless Local Area Networks 285fre
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Interaction Channel for DVB-T: DVB-
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References 297Table 5-58Parameters
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References 299[32] Taoka H., Higuch
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302 Additional Techniques for Capac
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340 Definitions, Abbreviations, and
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350 SymbolsG l,lGG [j]h(t)h(τ,t)H(
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Index3GPP 218Adaptive techniques 19
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Index 355Forward error correction (
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Index 357Multi-carrier modulation a
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Index 359Maximum likelihood paramet
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