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Adaptive wireless transceivers : turbo-coded, turbo-equalized and space-time coded TDMA, CDMA, and OFDM systems / / L. Hanzo, C.H. Wong, M.S. Yee.

Hanzo Lajos <1952->

[Hoboken, New Jersey] : , : Wiley, 2002

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Auxiliary VHF transmitter to aid recovery of solar Argos/GPS PTTs [[electronic resource] /] / Christopher P. Hansen ... [and others]

Hansen Christopher P (Christopher Paul)

Fort Collins, CO : , : U.S. Dept. of Agriculture, Forest Service, Rocky Mountain Research Station, , [2014]

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Baseband receiver design for wireless MIMO-OFDM communications / / Tzi-Dar Chiueh, Pei-Yun Tsai, I-Wei Lai

Chiueh Tzi-Dar <1960->

Hoboken, New Jersey : , : Wiley, , 2012

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Baseband receiver design for wireless MIMO-OFDM communications / / Tzi-Dar Chiueh, Pei-Yun Tsai, I-Wei Lai

Chiueh Tzi-Dar <1960->

Hoboken, New Jersey : , : Wiley, , 2012

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CMOS cellular receiver front-ends [[electronic resource] ] : from specification to realization / / by Johan Janssens and Michiel Steyaert

Janssens Johan

Boston, Mass. ; ; London, : Kluwer Academic, c2002

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CMOS cellular receiver front-ends [[electronic resource] ] : from specification to realization / / by Johan Janssens and Michiel Steyaert

Janssens Johan

Boston, Mass. ; ; London, : Kluwer Academic, c2002

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CMOS cellular receiver front-ends [[electronic resource] ] : from specification to realization / / by Johan Janssens and Michiel Steyaert

Janssens Johan

Boston, Mass. ; ; London, : Kluwer Academic, c2002

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The design of CMOS radio-frequency integrated circuits / Thomas H. Lee

Lee, Thomas H., 1959-

Cambridge, UK ; New York : Cambridge University Press, 2004

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Developing Digital RF Memories and Transceiver Technologies for Electromagnetic Warfare / / Phillip E. Pace

Pace Phillip E

Norwood : , : Artech House, , 2022

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Developing Digital RF Memories and Transceiver Technologies for Electromagnetic Warfare / / Phillip E. Pace

Pace Phillip E

Norwood : , : Artech House, , 2022

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Autore	Hanzo Lajos <1952->
Edizione	[1st ed.]
Pubbl/distr/stampa	[Hoboken, New Jersey] : , : Wiley, 2002
Descrizione fisica	1 PDF (xiv, 737 pages) : illustrations
Disciplina	621.3845
Altri autori (Persone)	WongC. H YeeM. S
Soggetto topico	Radio - Transmitter-receivers Modulation (Electronics) Wireless communication systems Adaptive filters Adaptive antennas
ISBN	1-280-55556-4 9786610555567 0-470-84776-X
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	1 Prologue -- 1.1 Motivation of the Book -- 1.2 Adaptation Principles -- 1.3 Channel Quality Metrics -- 1.4 Transceiver Parameter Adaptation -- 1.5 Milestones in Adaptive Modulation History -- 1.6 Outline of the book -- I Near-instantaneously Adaptive Modulation and Filtering Based Equalisation -- 2 Introduction To Equalizers -- 2.1 Coherent Demodulation of Square-QAM -- 2.2 Intersymbol Interference -- 2.3 Basic Equalizer Theory -- 2.4 Signal to Noise Ratio Loss of the DFE -- 2.5 Equalization in Multi-level Modems -- 2.6 Review and Discussion -- 3 Adaptive Equalization -- 3.1 Derivation of the Recursive Kalman Algorithm -- 3.2 Application of the Kalman Algorithm -- 3.3 Complexity Study -- 3.4 Adaptive Equalization in Multilevel Modems -- 3.5 Review and Discussion -- 4 Adaptive Modulation -- 4.1 Adaptive Modulation for Narrow-band Fading Channels -- 4.2 Power Control Assisted Adaptive Modulation -- 4.3 Adaptive Modulation and Equalization in a Wideband Environment -- 4.4 Review and Discussion -- 5 Turbo-Coded and Turbo-Equalised Adaptive Modulation -- 5.1 Turbo Coding -- 5.2 System Parameters -- 5.3 Turbo Block Coding Performance of the Fixed QAM Modes -- 5.4 Fixed Coding Rate, Fixed Interleaver Size Turbo Coded AQAM -- 5.5 Fixed Coding Rate. Variable Interleaver Size Turbo Coded AQAM -- 5.6 Blind Modulation Detection -- 5.7 Variable Coding Rate Turbo Block Coded Adaptive Modulation -- 5.8 Comparisons of the Turbo Block Coded AQAM Schemes -- 5.9 Turbo Convolutional Coded AQAM Schemes -- 5.10 Turbo Equalization -- 5.11 Burst-by-Burst Adaptive Wideband Coded Modulation -- 5.12 Review and Discussion -- 6 Adaptive Modulation Mode Switching Optimization -- 6.l Introduction -- 6.2 Increasing the Average Transmit Power as a Fading Counter-Measure -- 6.3 System Description -- 6.4 Optimum Switching Levels -- 6.5 Results and Discussions -- 6.6 Review and Discussion -- 7 Practical Considerations of Wideband AQAM -- 7.1 Impact of Error Propagation. 7.2 Channel Quality Estimation Latency -- 7.3 Effect of CO-channel Interference on AQAM -- 7.4 Review and Discussion -- II Near-instantaneously Adaptive Modulation and Neural Network Based Equalisation -- 8 Neural Network Based Equalization -- 8.l Discrete Time Model for Channels Exhibiting Intersymbol Interference -- 8.2 Equalization as a Classification Problem -- 8.3 Introduction to Neural Networks -- 8.4 Equalization Using Neural Networks -- 8.5 Multilayer Perceptron Based Equaliser -- 8.6 Polynomial Perceptron Based Equaliser -- 8.7 Radial Basis Function Networks -- 8.8 K-means Clustering Algorithm -- 8.9 Radial Basis Function Network Based Equalisers -- 8.10 Scalar Noise-free Channel Output States -- 8.11 Decision Feedback Assisted Radial Basis Function Network Equaliser.49 -- 8.12 Simulation Results -- 8.13 Review and Discussion -- 9 RBF-Equalized Adaptive Modulation -- 9.l Background to Adaptive Modulation in a Narrowband Fading Channel -- 9.2 Background on Adaptive Modulation in a Wideband Fading Channel -- 9.3 Brief Overview of Part I of the Book -- 9.4 Joint Adaptive Modulation and RBF Based Equalization -- 9.5 Performance of the AQAM RBF DFE Scheme -- 9.6 Review and Discussion -- 10 RBF Equalization Using nrbo Codes -- 10.1 Introduction to Turbo Codes -- 10.2 Jacobian Logarithmic RBF Equalizer -- 10.3 System Overview -- 10.4 Turbo-coded RBF-equalized M-QAM Performance -- 10.5 Channel Quality Measure -- 10.6 Turbo Coding and RBF Equalizer Assisted AQAM -- 10.7 Review and Discussion -- 11 RBF Turbo Equalization -- 11.1 Introduction to Turbo equalization -- 11.2 RBF Assisted Turbo equalization -- 11.3 Comparison of the RBF and MAP Equaliser -- 11.4 Comparison of the Jacobian RBF and Log-MAP Equaliser -- 11.5 RBF Turbo Equaliser Performance -- 11.6 Reduced-complexity RBF Assisted Turbo equalization -- 11.7 In-phase/Quadrature-phase Turbo equalization -- 11.8 Turbo Equalized Convolutional and Space Time Trellis Coding. 11.9 Review and Discussion -- III Near-Instantaneously Adaptive CDMA and Adaptive Space-Time Coded OFDM -- 12 Burst-by-Burst Adaptive Multiuser Detection CDMA -- 12.1 Motivation -- 12.2 Multiuser Detection -- 12.3 Multiuser Equaliser Concepts -- 12.4 Adaptive CDMA Schemes -- 12.5 Burst-by-Burst AQAM/CDMA -- 12.6 Review and Discussion -- 13 Adaptive Multicarrier Modulation -- 13.1 Introduction -- 13.2 Orthogonal Frequency Division Multiplexing -- 13.3 OFDM Transmission over Frequency Selective Channel -- 13.4 OFDM Performance with Frequency Errors and Timing Errors -- 13.5 Synchronization Algorithms -- 13.6 Adaptive OFDM -- 13.7 Pre-Equalization -- 13.8 Review and Discussion -- 14 Space-Time Coding versus Adaptive Modulation -- 14.1 Introduction -- 14.2 Space-Time Trellis Codes -- 14.3 Space-Time CodedTransmissionOver Wideband Channels -- 14.4 Simulation Results -- 14.5 Space-Time Coded Adaptive Modulation for OFDM -- 14.6 Review and Discussion -- 15 Conclusions and Suggestions for Further Research -- 15.1 Book Summary and Conclusions -- 15.2 Suggestions for Future Research -- 15.3 Closing Remarks -- A Appendices -- A.1 Turbo Decoding and Equalization Algorithms -- A.2 Least Mean Square Algorithm -- A.3 Minimal Feedforward Order of the RBF DFE [Proof] -- A.4 BER Analysis of Type-I Star-QAM -- A.5 Two-Dimensional Rake Receiver -- A.6 Mode Specific Average BEP of Adaptive Modulation -- Bibliography -- Index -- Author Index.
Record Nr.	UNINA-9910142529803321

Autore	Chiueh Tzi-Dar <1960->
Edizione	[2nd ed.]
Pubbl/distr/stampa	Hoboken, New Jersey : , : Wiley, , 2012
Descrizione fisica	1 online resource (374 p.)
Disciplina	621.384/18
Altri autori (Persone)	TsaiPei-Yun Lai. I-Wei ChiuehTzi-Dar <1960->
Soggetto topico	Radio - Transmitter-receivers Wireless communication systems - Equipment and supplies Orthogonal frequency division multiplexing MIMO systems
ISBN	1-280-69941-8 9786613676399 1-118-18819-5 1-118-18820-9
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Preface xiii -- About the Authors xvii -- Acknowledgements xix -- List of Abbreviations and Acronyms xxi -- PART ONE: FUNDAMENTALS OF WIRELESS COMMUNICATION -- 1. Introduction 3 -- 1.1 Digital Broadcasting Systems 3 -- 1.1.1 Digital Audio Broadcasting (DAB) 4 -- 1.1.2 Digital Video Broadcasting (DVB) 4 -- 1.2 Mobile Cellular Systems 6 -- 1.2.1 Carrier Aggregation 8 -- 1.2.2 Multiple-Antenna Configuration 8 -- 1.2.3 Relay Transmission 9 -- 1.2.4 Coordinated Multipoint Transmission and Reception (CoMP) 9 -- 1.3 Wireless Network Systems 10 -- 1.3.1 Personal Area Network (PAN) 10 -- 1.3.2 Local Area Network (LAN) 12 -- 1.3.3 Metropolitan Area Network (MAN) 13 -- 1.3.4 Wide Area Network (WAN) 14 -- Summary 14 -- References 15 -- 2. Digital Modulation 17 -- 2.1 Single-Carrier Modulation 17 -- 2.1.1 Power Spectral Densities of Modulation Signals 18 -- 2.1.2 PSK, QAM, and ASK 19 -- 2.1.3 CPFSK and MSK 22 -- 2.1.4 Pulse Shaping and Windowing 23 -- 2.2 Multi-Carrier Modulation 24 -- 2.2.1 Orthogonal Frequency-Division Multiplexing 27 -- 2.2.2 OFDM Related Issues 27 -- 2.2.3 OFDM Transceiver Architecture 31 -- 2.3 Adaptive OFDM 33 -- Summary 37 -- References 37 -- 3. AdvancedWireless Technology 39 -- 3.1 Multiple-Input Multiple-Output (MIMO) 39 -- 3.1.1 Introduction 39 -- 3.1.2 MIMO Basics 41 -- 3.1.3 MIMO Techniques 43 -- 3.1.4 MIMO-OFDM System Example 50 -- 3.2 Multiple Access 53 -- 3.2.1 Frequency-Division Multiple Access (FDMA) 54 -- 3.2.2 Time-Division Multiple Access (TDMA) 54 -- 3.2.3 Code-Division Multiple Access (CDMA) 55 -- 3.2.4 Carrier Sense Multiple Access (CSMA) 57 -- 3.2.5 Orthogonal Frequency-Division Multiple Access (OFDMA) 57 -- 3.2.6 Space-Division Multiple Access (SDMA) 58 -- 3.3 Spread Spectrum and CDMA 59 -- 3.3.1 PN Codes 60 -- 3.3.2 Direct-Sequence Spread Spectrum 63 -- 3.3.3 Frequency-Hopping Spread Spectrum 65 -- Summary 66 -- References 67 -- 4. Error-Correcting Codes 69 -- 4.1 Introduction 69 -- 4.2 Block Codes 70 -- 4.2.1 Linear Codes 70 -- 4.2.2 Cyclic Codes 72. 4.3 Reed-Solomon Codes 73 -- 4.3.1 Finite Fields 74 -- 4.3.2 Encoding 75 -- 4.3.3 Decoding 76 -- 4.3.4 Shortened Reed-Solomon Codes 76 -- 4.4 Convolutional Codes 77 -- 4.4.1 Encoding 77 -- 4.4.2 Viterbi Decoder 79 -- 4.4.3 Punctured Convolutional Codes 80 -- 4.5 Soft-Input Soft-Output Decoding Algorithms 81 -- 4.5.1 MAP Decoder 82 -- 4.5.2 Log-MAP Decoder 85 -- 4.5.3 Max-Log-MAP Decoder 86 -- 4.6 Turbo Codes 87 -- 4.6.1 Encoding 87 -- 4.6.2 Decoding 88 -- 4.7 Low-Density Parity-Check Codes 89 -- 4.7.1 Encoding 89 -- 4.7.2 Decoding 91 -- Summary 93 -- References 94 -- 5. Signal Propagation and Channel Model 95 -- 5.1 Introduction 95 -- 5.2 Wireless Channel Propagation 96 -- 5.2.1 Path Loss and Shadowing 96 -- 5.2.2 Multipath Fading 97 -- 5.2.3 Multipath Channel Parameters 98 -- 5.2.4 MIMO Channel 104 -- 5.3 Front-End Electronics Effects 105 -- 5.3.1 Carrier Frequency Offset 105 -- 5.3.2 Sampling Clock Offset 106 -- 5.3.3 Phase Noise 106 -- 5.3.4 IQ Imbalance and DC Offset 107 -- 5.3.5 Power Amplifier Nonlinearity 110 -- 5.4 Channel Model 111 -- 5.4.1 Model for Front-End Impairments 112 -- 5.4.2 Multipath Rayleigh Fader Model 113 -- 5.4.3 Channel Models Used in Standards 116 -- Summary 122 -- References 123 -- PART TWO: MIMO-OFDM RECEIVER PROCESSING -- 6. Synchronization 127 -- 6.1 Introduction 127 -- 6.2 Synchronization Issues 128 -- 6.2.1 Synchronization Errors 128 -- 6.2.2 Effects of Synchronization Errors 128 -- 6.2.3 Consideration for Estimation and Compensation 133 -- 6.3 Detection and Estimation of Synchronization Errors 134 -- 6.3.1 Symbol Timing Detection 134 -- 6.3.2 Carrier Frequency Offset Estimation 143 -- 6.3.3 Residual CFO and SCO Estimation 147 -- 6.3.4 Carrier Phase Estimation 149 -- 6.3.5 IQ Imbalance Estimation 150 -- 6.4 Detection and Estimation of Synchronization Errors in MIMO-OFDM Systems 153 -- 6.4.1 Symbol Timing Detection in MIMO-OFDM Systems 153 -- 6.4.2 Carrier Frequency Offset Estimation in MIMO-OFDM Systems 155 -- 6.4.3 Residual CFO and SCO Estimation in MIMO-OFDM Systems 156. 6.4.4 Carrier Phase Estimation in MIMO-OFDM Systems 157 -- 6.4.5 IQ Imbalance Estimation in MIMO-OFDM Systems 157 -- 6.5 Recovery of Synchronization Errors 158 -- 6.5.1 Carrier Frequency Offset Compensation 158 -- 6.5.2 Sampling Clock Offset and Common Phase Error Compensation 160 -- 6.5.3 IQ Imbalance Compensation 163 -- Summary 163 -- References 164 -- 7. Channel Estimation and Equalization 167 -- 7.1 Introduction 167 -- 7.2 Pilot Pattern 168 -- 7.2.1 Pilot Pattern in SISO-OFDM Systems 168 -- 7.2.2 Pilot Pattern in MIMO-OFDM Systems 171 -- 7.3 SISO-OFDM Channel Estimation 174 -- 7.3.1 Channel Estimation by Block-Type Pilot Symbols 177 -- 7.3.2 Channel Estimation by Comb-Type Pilot Symbols 179 -- 7.3.3 Channel Estimation by Grid-Type Pilot Symbols 186 -- 7.4 MIMO-OFDM Channel Estimation 191 -- 7.4.1 Space-Time Pilot 191 -- 7.5 Adaptive Channel Estimation 194 -- 7.6 Equalization 195 -- 7.6.1 One-Tap Equalizer 195 -- 7.6.2 Multi-Tap Equalizer 198 -- 7.7 Iterative Receiver 204 -- 7.7.1 Iterative Synchronization and Channel Estimation 205 -- 7.7.2 Bit-Interleaved Coded Modulation with Iterative -- Decoding (BICM-ID) 205 -- Summary 206 -- References 207 -- 8. MIMO Detection 209 -- 8.1 Introduction 209 -- 8.2 Linear Detection 210 -- 8.2.1 Zero Forcing (ZF) 210 -- 8.2.2 Minimum Mean Squared Error (MMSE) 211 -- 8.3 MIMO Detection with Channel Preprocessing 212 -- 8.3.1 Sorting 212 -- 8.3.2 QR Decomposition 213 -- 8.3.3 MMSE-SQRD 215 -- 8.3.4 Ordered Successive Interference Cancelation (OSIC) 216 -- 8.3.5 Lattice Reduction (LR) 218 -- 8.4 Sphere Decoder 220 -- 8.4.1 Depth-First Tree Search 221 -- 8.4.2 Breadth-First Tree Search 223 -- 8.4.3 Best-First Tree Search 224 -- 8.4.4 Complexity Measurement 227 -- 8.4.5 Design Space Exploration of Sphere Decoder 227 -- 8.5 Soft-Output Sphere Decoder 230 -- 8.5.1 Repeated Tree Search 231 -- 8.5.2 Single Tree Search 232 -- 8.5.3 LLR Clipping 232 -- 8.6 Iterative MIMO Detection 234 -- 8.6.1 List Sphere Decoder 234 -- 8.6.2 Soft-Input Soft-Output Sphere Decoder 235. 8.6.3 Iterative SIC-MMSE Detection 237 -- 8.7 Precoding 239 -- 8.7.1 Beam Steering 239 -- 8.7.2 Spatial Decorrelation 241 -- 8.7.3 Limited Feedback 244 -- 8.8 Space Block Code 246 -- Summary 247 -- References 248 -- PART THREE: HARDWARE DESIGN FOR MIMO-OFDM RECEIVERS -- 9. Circuit Techniques 253 -- 9.1 Introduction 253 -- 9.2 Fast Fourier Transform Modules 253 -- 9.2.1 FFT Algorithms 254 -- 9.2.2 Architecture 259 -- 9.2.3 Comparison 264 -- 9.3 Delay Buffer 267 -- 9.3.1 SRAM/Register File-Based Delay Buffer 267 -- 9.3.2 Pointer-Based Delay Buffer 268 -- 9.3.3 Gated Clock Strategy 269 -- 9.3.4 Comparison 272 -- 9.4 Circuits for Rectangular-to-Polar Conversion 274 -- 9.4.1 Arctangent Function 274 -- 9.4.2 Magnitude Function 279 -- 9.4.3 Comparison 286 -- 9.5 Circuits for Polar-to-Rectangular Conversion 286 -- 9.5.1 Trigonometric Approximation 287 -- 9.5.2 Polynomial Approximation 288 -- 9.5.3 Comparison 290 -- Summary 290 -- References 291 -- 10. MIMO IC Design Examples 293 -- 10.1 Introduction 293 -- 10.2 QR Decomposition IC 294 -- 10.2.1 System Description 294 -- 10.2.2 Algorithm Design 295 -- 10.2.3 Architecture Design 300 -- 10.2.4 Experimental Results 303 -- 10.3 8 x 8 Soft-Output Sphere Decoder 306 -- 10.3.1 Block Description 306 -- 10.3.2 Algorithm Design 306 -- 10.3.3 Architecture Design 307 -- 10.3.4 Experimental Results 316 -- Summary 318 -- References 319 -- 11. Mobile MIMO WiMAX System-on-Chip Design 321 -- 11.1 Introduction of WiMAX Standard 321 -- 11.2 Mobile WiMAX OFDMA and Frame Structure 322 -- 11.3 WiMAX Baseband Receiver Design 325 -- 11.3.1 Automatic Gain Control (AGC) 325 -- 11.3.2 Packet Detection (PKD) 326 -- 11.3.3 Symbol Timing Recovery (STR) 328 -- 11.3.4 Carrier Frequency Offset (CFO) Compensation 328 -- 11.3.5 Channel Estimation 330 -- 11.3.6 MIMO Detection 330 -- 11.3.7 Outer Receiver 333 -- 11.4 WiMAX Media Access Control (MAC) Design 333 -- 11.5 Implementation and Field Trial of the WiMAX SoC 336 -- 11.5.1 Laboratory Testing and Performance Evaluation 338. 11.5.2 Taiwan High Speed Rail Field Trial 340 -- Summary 341 -- References 341 -- Index 343.
Record Nr.	UNINA-9910141419303321

Autore	Chiueh Tzi-Dar <1960->
Edizione	[2nd ed.]
Pubbl/distr/stampa	Hoboken, New Jersey : , : Wiley, , 2012
Descrizione fisica	1 online resource (374 p.)
Disciplina	621.384/18
Altri autori (Persone)	TsaiPei-Yun Lai. I-Wei ChiuehTzi-Dar <1960->
Soggetto topico	Radio - Transmitter-receivers Wireless communication systems - Equipment and supplies Orthogonal frequency division multiplexing MIMO systems
ISBN	1-280-69941-8 9786613676399 1-118-18819-5 1-118-18820-9
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Preface xiii -- About the Authors xvii -- Acknowledgements xix -- List of Abbreviations and Acronyms xxi -- PART ONE: FUNDAMENTALS OF WIRELESS COMMUNICATION -- 1. Introduction 3 -- 1.1 Digital Broadcasting Systems 3 -- 1.1.1 Digital Audio Broadcasting (DAB) 4 -- 1.1.2 Digital Video Broadcasting (DVB) 4 -- 1.2 Mobile Cellular Systems 6 -- 1.2.1 Carrier Aggregation 8 -- 1.2.2 Multiple-Antenna Configuration 8 -- 1.2.3 Relay Transmission 9 -- 1.2.4 Coordinated Multipoint Transmission and Reception (CoMP) 9 -- 1.3 Wireless Network Systems 10 -- 1.3.1 Personal Area Network (PAN) 10 -- 1.3.2 Local Area Network (LAN) 12 -- 1.3.3 Metropolitan Area Network (MAN) 13 -- 1.3.4 Wide Area Network (WAN) 14 -- Summary 14 -- References 15 -- 2. Digital Modulation 17 -- 2.1 Single-Carrier Modulation 17 -- 2.1.1 Power Spectral Densities of Modulation Signals 18 -- 2.1.2 PSK, QAM, and ASK 19 -- 2.1.3 CPFSK and MSK 22 -- 2.1.4 Pulse Shaping and Windowing 23 -- 2.2 Multi-Carrier Modulation 24 -- 2.2.1 Orthogonal Frequency-Division Multiplexing 27 -- 2.2.2 OFDM Related Issues 27 -- 2.2.3 OFDM Transceiver Architecture 31 -- 2.3 Adaptive OFDM 33 -- Summary 37 -- References 37 -- 3. AdvancedWireless Technology 39 -- 3.1 Multiple-Input Multiple-Output (MIMO) 39 -- 3.1.1 Introduction 39 -- 3.1.2 MIMO Basics 41 -- 3.1.3 MIMO Techniques 43 -- 3.1.4 MIMO-OFDM System Example 50 -- 3.2 Multiple Access 53 -- 3.2.1 Frequency-Division Multiple Access (FDMA) 54 -- 3.2.2 Time-Division Multiple Access (TDMA) 54 -- 3.2.3 Code-Division Multiple Access (CDMA) 55 -- 3.2.4 Carrier Sense Multiple Access (CSMA) 57 -- 3.2.5 Orthogonal Frequency-Division Multiple Access (OFDMA) 57 -- 3.2.6 Space-Division Multiple Access (SDMA) 58 -- 3.3 Spread Spectrum and CDMA 59 -- 3.3.1 PN Codes 60 -- 3.3.2 Direct-Sequence Spread Spectrum 63 -- 3.3.3 Frequency-Hopping Spread Spectrum 65 -- Summary 66 -- References 67 -- 4. Error-Correcting Codes 69 -- 4.1 Introduction 69 -- 4.2 Block Codes 70 -- 4.2.1 Linear Codes 70 -- 4.2.2 Cyclic Codes 72. 4.3 Reed-Solomon Codes 73 -- 4.3.1 Finite Fields 74 -- 4.3.2 Encoding 75 -- 4.3.3 Decoding 76 -- 4.3.4 Shortened Reed-Solomon Codes 76 -- 4.4 Convolutional Codes 77 -- 4.4.1 Encoding 77 -- 4.4.2 Viterbi Decoder 79 -- 4.4.3 Punctured Convolutional Codes 80 -- 4.5 Soft-Input Soft-Output Decoding Algorithms 81 -- 4.5.1 MAP Decoder 82 -- 4.5.2 Log-MAP Decoder 85 -- 4.5.3 Max-Log-MAP Decoder 86 -- 4.6 Turbo Codes 87 -- 4.6.1 Encoding 87 -- 4.6.2 Decoding 88 -- 4.7 Low-Density Parity-Check Codes 89 -- 4.7.1 Encoding 89 -- 4.7.2 Decoding 91 -- Summary 93 -- References 94 -- 5. Signal Propagation and Channel Model 95 -- 5.1 Introduction 95 -- 5.2 Wireless Channel Propagation 96 -- 5.2.1 Path Loss and Shadowing 96 -- 5.2.2 Multipath Fading 97 -- 5.2.3 Multipath Channel Parameters 98 -- 5.2.4 MIMO Channel 104 -- 5.3 Front-End Electronics Effects 105 -- 5.3.1 Carrier Frequency Offset 105 -- 5.3.2 Sampling Clock Offset 106 -- 5.3.3 Phase Noise 106 -- 5.3.4 IQ Imbalance and DC Offset 107 -- 5.3.5 Power Amplifier Nonlinearity 110 -- 5.4 Channel Model 111 -- 5.4.1 Model for Front-End Impairments 112 -- 5.4.2 Multipath Rayleigh Fader Model 113 -- 5.4.3 Channel Models Used in Standards 116 -- Summary 122 -- References 123 -- PART TWO: MIMO-OFDM RECEIVER PROCESSING -- 6. Synchronization 127 -- 6.1 Introduction 127 -- 6.2 Synchronization Issues 128 -- 6.2.1 Synchronization Errors 128 -- 6.2.2 Effects of Synchronization Errors 128 -- 6.2.3 Consideration for Estimation and Compensation 133 -- 6.3 Detection and Estimation of Synchronization Errors 134 -- 6.3.1 Symbol Timing Detection 134 -- 6.3.2 Carrier Frequency Offset Estimation 143 -- 6.3.3 Residual CFO and SCO Estimation 147 -- 6.3.4 Carrier Phase Estimation 149 -- 6.3.5 IQ Imbalance Estimation 150 -- 6.4 Detection and Estimation of Synchronization Errors in MIMO-OFDM Systems 153 -- 6.4.1 Symbol Timing Detection in MIMO-OFDM Systems 153 -- 6.4.2 Carrier Frequency Offset Estimation in MIMO-OFDM Systems 155 -- 6.4.3 Residual CFO and SCO Estimation in MIMO-OFDM Systems 156. 6.4.4 Carrier Phase Estimation in MIMO-OFDM Systems 157 -- 6.4.5 IQ Imbalance Estimation in MIMO-OFDM Systems 157 -- 6.5 Recovery of Synchronization Errors 158 -- 6.5.1 Carrier Frequency Offset Compensation 158 -- 6.5.2 Sampling Clock Offset and Common Phase Error Compensation 160 -- 6.5.3 IQ Imbalance Compensation 163 -- Summary 163 -- References 164 -- 7. Channel Estimation and Equalization 167 -- 7.1 Introduction 167 -- 7.2 Pilot Pattern 168 -- 7.2.1 Pilot Pattern in SISO-OFDM Systems 168 -- 7.2.2 Pilot Pattern in MIMO-OFDM Systems 171 -- 7.3 SISO-OFDM Channel Estimation 174 -- 7.3.1 Channel Estimation by Block-Type Pilot Symbols 177 -- 7.3.2 Channel Estimation by Comb-Type Pilot Symbols 179 -- 7.3.3 Channel Estimation by Grid-Type Pilot Symbols 186 -- 7.4 MIMO-OFDM Channel Estimation 191 -- 7.4.1 Space-Time Pilot 191 -- 7.5 Adaptive Channel Estimation 194 -- 7.6 Equalization 195 -- 7.6.1 One-Tap Equalizer 195 -- 7.6.2 Multi-Tap Equalizer 198 -- 7.7 Iterative Receiver 204 -- 7.7.1 Iterative Synchronization and Channel Estimation 205 -- 7.7.2 Bit-Interleaved Coded Modulation with Iterative -- Decoding (BICM-ID) 205 -- Summary 206 -- References 207 -- 8. MIMO Detection 209 -- 8.1 Introduction 209 -- 8.2 Linear Detection 210 -- 8.2.1 Zero Forcing (ZF) 210 -- 8.2.2 Minimum Mean Squared Error (MMSE) 211 -- 8.3 MIMO Detection with Channel Preprocessing 212 -- 8.3.1 Sorting 212 -- 8.3.2 QR Decomposition 213 -- 8.3.3 MMSE-SQRD 215 -- 8.3.4 Ordered Successive Interference Cancelation (OSIC) 216 -- 8.3.5 Lattice Reduction (LR) 218 -- 8.4 Sphere Decoder 220 -- 8.4.1 Depth-First Tree Search 221 -- 8.4.2 Breadth-First Tree Search 223 -- 8.4.3 Best-First Tree Search 224 -- 8.4.4 Complexity Measurement 227 -- 8.4.5 Design Space Exploration of Sphere Decoder 227 -- 8.5 Soft-Output Sphere Decoder 230 -- 8.5.1 Repeated Tree Search 231 -- 8.5.2 Single Tree Search 232 -- 8.5.3 LLR Clipping 232 -- 8.6 Iterative MIMO Detection 234 -- 8.6.1 List Sphere Decoder 234 -- 8.6.2 Soft-Input Soft-Output Sphere Decoder 235. 8.6.3 Iterative SIC-MMSE Detection 237 -- 8.7 Precoding 239 -- 8.7.1 Beam Steering 239 -- 8.7.2 Spatial Decorrelation 241 -- 8.7.3 Limited Feedback 244 -- 8.8 Space Block Code 246 -- Summary 247 -- References 248 -- PART THREE: HARDWARE DESIGN FOR MIMO-OFDM RECEIVERS -- 9. Circuit Techniques 253 -- 9.1 Introduction 253 -- 9.2 Fast Fourier Transform Modules 253 -- 9.2.1 FFT Algorithms 254 -- 9.2.2 Architecture 259 -- 9.2.3 Comparison 264 -- 9.3 Delay Buffer 267 -- 9.3.1 SRAM/Register File-Based Delay Buffer 267 -- 9.3.2 Pointer-Based Delay Buffer 268 -- 9.3.3 Gated Clock Strategy 269 -- 9.3.4 Comparison 272 -- 9.4 Circuits for Rectangular-to-Polar Conversion 274 -- 9.4.1 Arctangent Function 274 -- 9.4.2 Magnitude Function 279 -- 9.4.3 Comparison 286 -- 9.5 Circuits for Polar-to-Rectangular Conversion 286 -- 9.5.1 Trigonometric Approximation 287 -- 9.5.2 Polynomial Approximation 288 -- 9.5.3 Comparison 290 -- Summary 290 -- References 291 -- 10. MIMO IC Design Examples 293 -- 10.1 Introduction 293 -- 10.2 QR Decomposition IC 294 -- 10.2.1 System Description 294 -- 10.2.2 Algorithm Design 295 -- 10.2.3 Architecture Design 300 -- 10.2.4 Experimental Results 303 -- 10.3 8 x 8 Soft-Output Sphere Decoder 306 -- 10.3.1 Block Description 306 -- 10.3.2 Algorithm Design 306 -- 10.3.3 Architecture Design 307 -- 10.3.4 Experimental Results 316 -- Summary 318 -- References 319 -- 11. Mobile MIMO WiMAX System-on-Chip Design 321 -- 11.1 Introduction of WiMAX Standard 321 -- 11.2 Mobile WiMAX OFDMA and Frame Structure 322 -- 11.3 WiMAX Baseband Receiver Design 325 -- 11.3.1 Automatic Gain Control (AGC) 325 -- 11.3.2 Packet Detection (PKD) 326 -- 11.3.3 Symbol Timing Recovery (STR) 328 -- 11.3.4 Carrier Frequency Offset (CFO) Compensation 328 -- 11.3.5 Channel Estimation 330 -- 11.3.6 MIMO Detection 330 -- 11.3.7 Outer Receiver 333 -- 11.4 WiMAX Media Access Control (MAC) Design 333 -- 11.5 Implementation and Field Trial of the WiMAX SoC 336 -- 11.5.1 Laboratory Testing and Performance Evaluation 338. 11.5.2 Taiwan High Speed Rail Field Trial 340 -- Summary 341 -- References 341 -- Index 343.
Record Nr.	UNINA-9910820478003321

Autore	Janssens Johan
Edizione	[1st ed. 2002.]
Pubbl/distr/stampa	Boston, Mass. ; ; London, : Kluwer Academic, c2002
Descrizione fisica	1 online resource (277 p.)
Disciplina	621.38418
Altri autori (Persone)	SteyaertMichiel <1959->
Collana	The Kluwer international series in engineering and computer science
Soggetto topico	Metal oxide semiconductors, Complementary Mobile communication systems Radio - Transmitter-receivers
Soggetto genere / forma	Electronic books.
ISBN	1-280-20788-4 9786610207886 0-306-47304-6
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	The DCS-1800 Communication System -- Receiver Architecture and Specifications -- Deep Submicron CMOS Transistors -- RF CMOS Design for Analog Designers -- Systematic CMOS LNA Design -- A 0.25 ? CMOS Receiver Prototype for DCS-1800 Cellular Communications -- A 0.8 dB NF, ESD-protected CMOS LNA -- A 2V CMOS DCS-1800 Receiver Front-End.
Record Nr.	UNINA-9910454836303321

Autore	Janssens Johan
Edizione	[1st ed. 2002.]
Pubbl/distr/stampa	Boston, Mass. ; ; London, : Kluwer Academic, c2002
Descrizione fisica	1 online resource (277 p.)
Disciplina	621.38418
Altri autori (Persone)	SteyaertMichiel <1959->
Collana	The Kluwer international series in engineering and computer science
Soggetto topico	Metal oxide semiconductors, Complementary Mobile communication systems Radio - Transmitter-receivers
ISBN	1-280-20788-4 9786610207886 0-306-47304-6
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	The DCS-1800 Communication System -- Receiver Architecture and Specifications -- Deep Submicron CMOS Transistors -- RF CMOS Design for Analog Designers -- Systematic CMOS LNA Design -- A 0.25 ? CMOS Receiver Prototype for DCS-1800 Cellular Communications -- A 0.8 dB NF, ESD-protected CMOS LNA -- A 2V CMOS DCS-1800 Receiver Front-End.
Record Nr.	UNINA-9910780034103321