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Introduction to digital mobile communication / Yoshihiko Akaiwa.

By: Akaiwa, Yoshihiko [author.].
Contributor(s): IEEE Xplore (Online Service) [distributor.] | Wiley [publisher.].
Material type: materialTypeLabelBookPublisher: Hoboken, New Jersey : Wiley, [2015]Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2015]Edition: Second edition.Description: 1 PDF (xviii, 625 pages) : illustrations.Content type: text Media type: electronic Carrier type: online resourceISBN: 9781119041139.Subject(s): Mobile communication systems | Digital communicationsGenre/Form: Electronic books.DDC classification: 621.3845/6 Online resources: Abstract with links to resource Also available in print.
Contents:
-- Preface to the Second Edition xiii -- Preface to the First Edition xv -- 1 Introduction 1 -- 1.1 Digital Mobile Radio Communication System 1 -- 1.2 The Purpose of Digitization of Mobile Radio Communications 5 -- 1.2.1 Data Communication 5 -- 1.2.2 Voice Scrambling 6 -- 1.2.3 Spectrum Efficiency 6 -- 1.2.4 System Cost 7 -- 2 S ignal and Systems 9 -- 2.1 Signal Analysis 9 -- 2.1.1 Delta Function 9 -- 2.1.2 Fourier Analysis 15 -- 2.1.3 Signals 26 -- 2.1.4 Digital Signals 31 -- 2.1.5 Modulated Signals 34 -- 2.1.6 The Equivalent Base?]Band Complex Expression 36 -- 2.2 Noise Analysis 37 -- 2.2.1 Noise in Communication System 37 -- 2.2.2 Statistics of Noise 39 -- 2.2.3 Power Spectral Density of Noise 42 -- 2.2.4 Autocorrelation Function of Filtered Noise 43 -- 2.2.5 Bandpass Noise 44 -- 2.2.6 Envelope and Phase of a Sinusoidal Signal in -- Bandpass Noise 48 -- 2.2.7 Generation of Correlated Noises and its Probability -- Density Function 49 -- 2.2.8 Sums of Random Variables and the Central -- Limit Theorem 51 -- 2.3 Linear System 55 -- 2.3.1 Linear Time?]Invariant System 55 -- 2.3.2 Response of Linear System 55 -- 2.3.3 System Description with Differential Equations 63 -- 2.3.4 Examples of Linear Systems 66 -- 2.4 Discrete?]time System 75 -- 2.4.1 Sampling and the Sampling Theorem 75 -- 2.4.2 The Energy, Power, and Correlation of -- Discrete-Time Signals 78 -- 2.4.3 The Fourier Transform of Discrete?]Time Signals 79 -- 2.4.4 Response of Discrete?]Time System 85 -- 2.4.5 Description with Difference Equation 92 -- 2.4.6 Digital Filter 94 -- 2.4.7 Downsampling, Upsampling, and Subsampling 98 -- 2.4.8 Inverse Circuit 101 -- 2.4.9 Window Function 101 -- 2.4.10 Discrete Fourier Transform 102 -- 2.4.11 The Fast Fourier Transform 106 -- 2.5 O ptimization and Adaptive Signal Processing 108 -- 2.5.1 Solution of Optimization Problem 108 -- 2.5.2 Adaptive Signal Processing 112 -- Appendix 2.A lim(S]→∞(B(sin(S](Bt/(Ss(Bt) = (Se(B (t) 124 -- Appendix 2.B Conditions for a Test Function for the Delta.
Function, limT , ( ) -- T -- g t tdt ___ _ = -- _ -- sin_ 0 125 -- Appendix 2.C Formulae for the Trigonometric Functions 126 -- References 126 -- 3 T he Elements of Digital Communication System 127 -- 3.1 Pulse Shaping 127 -- 3.1.1 Nyquist's First Criterion 128 -- 3.1.2 Nyquist's Second Criterion 132 -- 3.1.3 Nyquist's Third Criterion 134 -- 3.1.4 O ther Pulse?]Shaping Methods 135 -- 3.2 Line Coding 137 -- 3.2.1 Unipolar (On / Off) Code and Polar Codes 137 -- ftoc.indd 6 04/23/2015 7:43:21 PM -- Contents_vii -- 3.2.2 Multilevel Codes 137 -- 3.2.3 The Gray Codes 138 -- 3.2.4 Manchester (Split?]Phase) Code 139 -- 3.2.5 Synchronized Frequency Shift Keying Code 141 -- 3.2.6 Correlative Coding 141 -- 3.2.7 Differential Encoding 148 -- 3.3 Signal Detection 149 -- 3.3.1 C/N, S/N, and Eb/N0 149 -- 3.3.2 Bit Error Rate 150 -- 3.3.3 NRZ Signaling with Integrate?]and?]Dump -- Filter Detection 156 -- 3.3.4 Nyquist?]I Signaling System 157 -- 3.3.5 The Matched Filter 157 -- 3.3.6 Joint Optimization of the Transmit and -- the Receive Filters 162 -- 3.3.7 The Optimum Receiver 164 -- 3.3.8 The Maximum?]Likelihood Receiver and -- the Viterbi Algorithm 170 -- 3.3.9 The Optimum Receiver for Signals without -- Intersymbol Interference 174 -- 3.4 Synchronization 175 -- 3.4.1 Symbol Timing Recovery 175 -- 3.4.2 Frame Synchronization 176 -- 3.5 Scrambling 177 -- 3.6 Public Key Cryptosystem 180 -- 3.7 Multiplexing and Multiple Access 182 -- 3.8 The Channel Capacity 183 -- Appendix 3.A Fermat's Theorem and the Chinese Remainder -- Theorem 185 -- References 187 -- 4 Mobile Radio Channels 189 -- 4.1 Path Loss 190 -- 4.2 Shadowing 193 -- 4.3 Fast Fading 193 -- 4.3.1 RF Power Spectrum Spread due to Fast Fading 195 -- 4.3.2 Correlations Between the In?]phase and -- Quadrature Components 196 -- 4.3.3 Correlation of the Envelope 197 -- 4.3.4 Spatial Correlation of the Envelope 198 -- 4.3.5 Random Frequency Modulation 198 -- 4.4 Delay Spread and Frequency?]Selective Fading 200 -- 4.4.1 Coherence Bandwidth 202.
4.4.2 Frequency?]Selective Fading 203 -- 4.5 The Near / Far Problem 204 -- 4.6 Cochannel Interference 205 -- 4.6.1 Rayleigh Fading 206 -- 4.6.2 Shadowing 206 -- 4.6.3 Combined Fading and Shadowing 207 -- 4.6.4 Discussion 207 -- 4.7 Receive Power Distribution and Radio Channel Design 207 -- 4.7.1 Receive Power Distribution 209 -- 4.7.2 Channel Link Design 210 -- Appendix 4.A Propagation Loss Formula 214 -- Appendix 4.B Interference Probability under Shadowing 216 -- Appendix 4.C Interference Probability under Combined -- Fading and Shadowing 217 -- References 217 -- 5 E lements of Digital Modulation 219 -- 5.1 Digitally Modulated Signals 219 -- 5.2 Linear Modulation Versus Constant Envelope Modulation 220 -- 5.3 Digital Modulations 221 -- 5.3.1 Phase Shift Keying 221 -- 5.3.2 Frequency Shift Keying 226 -- 5.3.3 Constant Envelope PSK 228 -- 5.3.4 Quadrature Amplitude Modulation 229 -- 5.4 Power Spectral Density of Digitally Modulated -- Signals 229 -- 5.4.1 Linear Modulation 231 -- 5.4.2 Digital FM 231 -- 5.5 Demodulation 233 -- 5.5.1 Coherent Detection 233 -- 5.5.2 Envelope Detection 245 -- 5.5.3 Differential Detection 246 -- 5.5.4 Frequency Discriminator Detection 250 -- 5.5.5 Error Rates in Fading Channels 264 -- 5.6 Computer Simulation of Transmission Systems 270 -- Appendix 5.A Distortion of Modulated Signal Applied -- to a Nonlinear Circuit 275 -- Appendix 5.B Derivation of the Expected Gaussian Noise -- Power for Frequency Discriminator 276 -- Appendix 5.C M / Sequence Generator 277 -- References 278 -- 6 Digital Modulation/Demodulation for Mobile -- Radio Communication 281 -- 6.1 Digital Modulation for Analog FM Mobile Radio Systems 282 -- 6.2 Constant Envelope Modulation 282 -- 6.2.1 MSK 283 -- 6.2.2 Partial?]Response Digital FM 294 -- 6.2.3 Nyquist?]Filtered Digital FM 306 -- 6.2.4 Performance Comparison 310 -- 6.3 Linear Modulation 313 -- 6.3.1 (Ss(B/4?]Shifted QPSK 315 -- 6.3.2 Eight?]Level PSK 320 -- 6.3.3 16QAM 322 -- 6.4 Spread?]Spectrum System 322 -- 6.5 Multicarrier Transmission 329.
6.5.1 O rthogonal Frequency?]Division Multiplexing 329 -- 6.5.2 Generation of Multicarrier Digital Signal 337 -- 6.5.3 Demodulation of Multicarrier Signals 341 -- 6.6 Single?]Carrier Frequency?]Division Modulation 343 -- Appendix 6.A Mathematical Principles of Orthogonal -- Frequency-Division Multiplexing 346 -- 6.A.1 Band?]Limited System 347 -- 6.A.2 Nonband?]Limited System 348 -- References 349 -- 7 Other Topics in Digital Mobile Radio Transmission 355 -- 7.1 Diversity Transmission System 355 -- 7.1.1 Probability Density Function of SNR for -- Diversity System 357 -- 7.1.2 Average Error Rate for Diversity Systems 360 -- 7.1.3 Multiple Transmitter Diversity System 367 -- 7.1.4 Antenna Selection Diversity System 370 -- 7.2 Multi?]Input Multi?]Output Systems 375 -- 7.2.1 Maximal Ratio Combining Diversity -- Systems 375 -- 7.2.2 Space / Time Codes 385 -- 7.2.3 SDM in MIMO Systems 386 -- 7.3 Adaptive Automatic Equalizer 401 -- 7.3.1 Linear Equalizer 402 -- 7.3.2 Performance Criteria for Equalization 405 -- 7.3.3 Decision Feedback Equalizer 409 -- 7.3.4 The Viterbi Equalizer 410 -- 7.3.5 Adaptation and Prediction Algorithm 411 -- 7.3.6 Preequalization 411 -- 7.3.7 Frequency?]Domain Equalizer 418 -- 7.3.8 Turbo Equalizer 419 -- 7.3.9 Discussions on Equalization 419 -- 7.3.10 Applications to a Mobile Radio Channel 421 -- 7.4 Error Control Techniques 422 -- 7.4.1 Linear Block Codes 424 -- 7.4.2 Cyclic Codes 426 -- 7.4.3 Convolutional Codes 429 -- 7.4.4 Concatenated Codes 430 -- 7.4.5 Turbo Codes 430 -- 7.4.6 LDPC Code 444 -- 7.4.7 A Phenomenological Expression of the a Priori -- Probability and Error Rates 449 -- 7.4.8 ARQ 452 -- 7.4.9 Applications to Mobile Radio Channels 453 -- 7.5 Trellis?]Coded Modulation 453 -- 7.6 Adaptive Interference Cancellation 456 -- 7.6.1 Adaptive Array Antenna 457 -- 7.6.2 Adaptive Interference Suppression 466 -- 7.6.3 Discussion 467 -- 7.7 Voice Coding 469 -- 7.7.1 Pulse Code Modulation 470 -- 7.7.2 Delta Modulation 471 -- 7.7.3 Adaptive Differential Pulse Code Modulation 472.
7.7.4 Adaptive Predictive Coding 473 -- 7.7.5 Multipulse Coding 476 -- 7.7.6 Code?]Excited Linear Predictive (CELP) Coding 477 -- 7.7.7 LPC Vocoder 482 -- 7.7.8 Application to Mobile Radio Communications 482 -- Appendix 7.A Average Error Rate for Maximal Ratio -- Combiner with Coherent Detector 484 -- Appendix 7.B Average Error Rate of Maximal Ratio Combining -- System with Coherent Detector with Use of -- Approximate Probability Density Function 485 -- References 486 -- 8 Equipment and Circuits for Digital Mobile Radio 493 -- 8.1 Base Station 493 -- 8.2 Mobile Station 494 -- 8.3 Superheterodyne and Direct Conversion Receivers 495 -- 8.3.1 Image Rejection Downconverter 497 -- 8.4 Transmit and Receive Duplexing 501 -- 8.5 Frequency Synthesizer 501 -- 8.6 Transmitter Circuits 503 -- 8.6.1 Digital Signal Waveform Generator 503 -- 8.6.2 Modulator 504 -- 8.6.3 Linear Power Amplifier 507 -- 8.6.4 Transmit Power Control 525 -- 8.7 Receiver Circuits 527 -- 8.7.1 AGC Circuit 527 -- 8.7.2 Signal Processing with Logic Circuits 529 -- 8.7.3 Demodulator 532 -- 8.8 Countermeasures Against dc Blocking and dc Offset 535 -- Appendix 8.A Quarter?]wavelength Line 538 -- References 539 -- 9 Digital Mobile Radio Communication Systems 543 -- 9.1 Fundamental Concepts 543 -- 9.1.1 The Cellular Concept 543 -- 9.1.2 Multiple Access 551 -- 9.1.3 Channel Assignment 554 -- 9.1.4 Multiple?]Access System 563 -- 9.1.5 Intercell Interference Suppression 566 -- 9.1.6 Repeater System 566 -- 9.1.7 A Performance Analysis of Digital Cellular System 567 -- 9.2 Digital Transmission in Analog Mobile Communication -- Systems 577 -- 9.3 Paging Systems 578 -- 9.4 Two?]Way Digital Mobile Radio 579 -- 9.5 Mobile Data Service Systems 580 -- 9.5.1 MOBITEX 580 -- 9.5.2 Teleterminal System 580 -- 9.5.3 Mobile Data Systems in Analog Cellular Systems 580 -- 9.6 Digital Cordless Telephone 581 -- 9.6.1 Second?]Generation Cordless Telephone 581 -- 9.6.2 Digital European Cordless Telecommunications 582 -- 9.6.3 Personal Handy System 582.
9.7 Digital Mobile Telephone Systems 583 -- 9.7.1 The GSM System 584 -- 9.7.2 Digital Cellular Systems in North America 587 -- 9.7.3 Digital Cellular Systems in Japan 591 -- 9.7.4 Evolution of the Second?]Generation Systems 592 -- 9.7.5 The Third?]Generation System 592 -- 9.7.6 Evolution of 3G Systems 595 -- 9.7.7 WiMAX 599 -- 9.7.8 The Fourth-Generation System 600 -- 9.8 Wireless Local Area Network 600 -- 9.8.1 IEEE 802.11 Series 600 -- 9.8.2 Bluetooth 605 -- 9.8.3 UWB 605 -- 9.8.4 ZigBee 606 -- 9.8.5 BWN 606 -- 9.8.6 MBWA 608 -- Appendix 9.A Poisson Arrival Rates 608 -- References 609 -- Index 613.
Summary: "This book emphasizes digital transmission methods. Beginning with an introduction to what digital mobile communication is, it presents mathematical analyses of signals, mobile radio channels,and digital modulation methods"-- Provided by publisher.
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Includes bibliographical references and index.

-- Preface to the Second Edition xiii -- Preface to the First Edition xv -- 1 Introduction 1 -- 1.1 Digital Mobile Radio Communication System 1 -- 1.2 The Purpose of Digitization of Mobile Radio Communications 5 -- 1.2.1 Data Communication 5 -- 1.2.2 Voice Scrambling 6 -- 1.2.3 Spectrum Efficiency 6 -- 1.2.4 System Cost 7 -- 2 S ignal and Systems 9 -- 2.1 Signal Analysis 9 -- 2.1.1 Delta Function 9 -- 2.1.2 Fourier Analysis 15 -- 2.1.3 Signals 26 -- 2.1.4 Digital Signals 31 -- 2.1.5 Modulated Signals 34 -- 2.1.6 The Equivalent Base?]Band Complex Expression 36 -- 2.2 Noise Analysis 37 -- 2.2.1 Noise in Communication System 37 -- 2.2.2 Statistics of Noise 39 -- 2.2.3 Power Spectral Density of Noise 42 -- 2.2.4 Autocorrelation Function of Filtered Noise 43 -- 2.2.5 Bandpass Noise 44 -- 2.2.6 Envelope and Phase of a Sinusoidal Signal in -- Bandpass Noise 48 -- 2.2.7 Generation of Correlated Noises and its Probability -- Density Function 49 -- 2.2.8 Sums of Random Variables and the Central -- Limit Theorem 51 -- 2.3 Linear System 55 -- 2.3.1 Linear Time?]Invariant System 55 -- 2.3.2 Response of Linear System 55 -- 2.3.3 System Description with Differential Equations 63 -- 2.3.4 Examples of Linear Systems 66 -- 2.4 Discrete?]time System 75 -- 2.4.1 Sampling and the Sampling Theorem 75 -- 2.4.2 The Energy, Power, and Correlation of -- Discrete-Time Signals 78 -- 2.4.3 The Fourier Transform of Discrete?]Time Signals 79 -- 2.4.4 Response of Discrete?]Time System 85 -- 2.4.5 Description with Difference Equation 92 -- 2.4.6 Digital Filter 94 -- 2.4.7 Downsampling, Upsampling, and Subsampling 98 -- 2.4.8 Inverse Circuit 101 -- 2.4.9 Window Function 101 -- 2.4.10 Discrete Fourier Transform 102 -- 2.4.11 The Fast Fourier Transform 106 -- 2.5 O ptimization and Adaptive Signal Processing 108 -- 2.5.1 Solution of Optimization Problem 108 -- 2.5.2 Adaptive Signal Processing 112 -- Appendix 2.A lim(S]→∞(B(sin(S](Bt/(Ss(Bt) = (Se(B (t) 124 -- Appendix 2.B Conditions for a Test Function for the Delta.

Function, limT , ( ) -- T -- g t tdt ___ _ = -- _ -- sin_ 0 125 -- Appendix 2.C Formulae for the Trigonometric Functions 126 -- References 126 -- 3 T he Elements of Digital Communication System 127 -- 3.1 Pulse Shaping 127 -- 3.1.1 Nyquist's First Criterion 128 -- 3.1.2 Nyquist's Second Criterion 132 -- 3.1.3 Nyquist's Third Criterion 134 -- 3.1.4 O ther Pulse?]Shaping Methods 135 -- 3.2 Line Coding 137 -- 3.2.1 Unipolar (On / Off) Code and Polar Codes 137 -- ftoc.indd 6 04/23/2015 7:43:21 PM -- Contents_vii -- 3.2.2 Multilevel Codes 137 -- 3.2.3 The Gray Codes 138 -- 3.2.4 Manchester (Split?]Phase) Code 139 -- 3.2.5 Synchronized Frequency Shift Keying Code 141 -- 3.2.6 Correlative Coding 141 -- 3.2.7 Differential Encoding 148 -- 3.3 Signal Detection 149 -- 3.3.1 C/N, S/N, and Eb/N0 149 -- 3.3.2 Bit Error Rate 150 -- 3.3.3 NRZ Signaling with Integrate?]and?]Dump -- Filter Detection 156 -- 3.3.4 Nyquist?]I Signaling System 157 -- 3.3.5 The Matched Filter 157 -- 3.3.6 Joint Optimization of the Transmit and -- the Receive Filters 162 -- 3.3.7 The Optimum Receiver 164 -- 3.3.8 The Maximum?]Likelihood Receiver and -- the Viterbi Algorithm 170 -- 3.3.9 The Optimum Receiver for Signals without -- Intersymbol Interference 174 -- 3.4 Synchronization 175 -- 3.4.1 Symbol Timing Recovery 175 -- 3.4.2 Frame Synchronization 176 -- 3.5 Scrambling 177 -- 3.6 Public Key Cryptosystem 180 -- 3.7 Multiplexing and Multiple Access 182 -- 3.8 The Channel Capacity 183 -- Appendix 3.A Fermat's Theorem and the Chinese Remainder -- Theorem 185 -- References 187 -- 4 Mobile Radio Channels 189 -- 4.1 Path Loss 190 -- 4.2 Shadowing 193 -- 4.3 Fast Fading 193 -- 4.3.1 RF Power Spectrum Spread due to Fast Fading 195 -- 4.3.2 Correlations Between the In?]phase and -- Quadrature Components 196 -- 4.3.3 Correlation of the Envelope 197 -- 4.3.4 Spatial Correlation of the Envelope 198 -- 4.3.5 Random Frequency Modulation 198 -- 4.4 Delay Spread and Frequency?]Selective Fading 200 -- 4.4.1 Coherence Bandwidth 202.

4.4.2 Frequency?]Selective Fading 203 -- 4.5 The Near / Far Problem 204 -- 4.6 Cochannel Interference 205 -- 4.6.1 Rayleigh Fading 206 -- 4.6.2 Shadowing 206 -- 4.6.3 Combined Fading and Shadowing 207 -- 4.6.4 Discussion 207 -- 4.7 Receive Power Distribution and Radio Channel Design 207 -- 4.7.1 Receive Power Distribution 209 -- 4.7.2 Channel Link Design 210 -- Appendix 4.A Propagation Loss Formula 214 -- Appendix 4.B Interference Probability under Shadowing 216 -- Appendix 4.C Interference Probability under Combined -- Fading and Shadowing 217 -- References 217 -- 5 E lements of Digital Modulation 219 -- 5.1 Digitally Modulated Signals 219 -- 5.2 Linear Modulation Versus Constant Envelope Modulation 220 -- 5.3 Digital Modulations 221 -- 5.3.1 Phase Shift Keying 221 -- 5.3.2 Frequency Shift Keying 226 -- 5.3.3 Constant Envelope PSK 228 -- 5.3.4 Quadrature Amplitude Modulation 229 -- 5.4 Power Spectral Density of Digitally Modulated -- Signals 229 -- 5.4.1 Linear Modulation 231 -- 5.4.2 Digital FM 231 -- 5.5 Demodulation 233 -- 5.5.1 Coherent Detection 233 -- 5.5.2 Envelope Detection 245 -- 5.5.3 Differential Detection 246 -- 5.5.4 Frequency Discriminator Detection 250 -- 5.5.5 Error Rates in Fading Channels 264 -- 5.6 Computer Simulation of Transmission Systems 270 -- Appendix 5.A Distortion of Modulated Signal Applied -- to a Nonlinear Circuit 275 -- Appendix 5.B Derivation of the Expected Gaussian Noise -- Power for Frequency Discriminator 276 -- Appendix 5.C M / Sequence Generator 277 -- References 278 -- 6 Digital Modulation/Demodulation for Mobile -- Radio Communication 281 -- 6.1 Digital Modulation for Analog FM Mobile Radio Systems 282 -- 6.2 Constant Envelope Modulation 282 -- 6.2.1 MSK 283 -- 6.2.2 Partial?]Response Digital FM 294 -- 6.2.3 Nyquist?]Filtered Digital FM 306 -- 6.2.4 Performance Comparison 310 -- 6.3 Linear Modulation 313 -- 6.3.1 (Ss(B/4?]Shifted QPSK 315 -- 6.3.2 Eight?]Level PSK 320 -- 6.3.3 16QAM 322 -- 6.4 Spread?]Spectrum System 322 -- 6.5 Multicarrier Transmission 329.

6.5.1 O rthogonal Frequency?]Division Multiplexing 329 -- 6.5.2 Generation of Multicarrier Digital Signal 337 -- 6.5.3 Demodulation of Multicarrier Signals 341 -- 6.6 Single?]Carrier Frequency?]Division Modulation 343 -- Appendix 6.A Mathematical Principles of Orthogonal -- Frequency-Division Multiplexing 346 -- 6.A.1 Band?]Limited System 347 -- 6.A.2 Nonband?]Limited System 348 -- References 349 -- 7 Other Topics in Digital Mobile Radio Transmission 355 -- 7.1 Diversity Transmission System 355 -- 7.1.1 Probability Density Function of SNR for -- Diversity System 357 -- 7.1.2 Average Error Rate for Diversity Systems 360 -- 7.1.3 Multiple Transmitter Diversity System 367 -- 7.1.4 Antenna Selection Diversity System 370 -- 7.2 Multi?]Input Multi?]Output Systems 375 -- 7.2.1 Maximal Ratio Combining Diversity -- Systems 375 -- 7.2.2 Space / Time Codes 385 -- 7.2.3 SDM in MIMO Systems 386 -- 7.3 Adaptive Automatic Equalizer 401 -- 7.3.1 Linear Equalizer 402 -- 7.3.2 Performance Criteria for Equalization 405 -- 7.3.3 Decision Feedback Equalizer 409 -- 7.3.4 The Viterbi Equalizer 410 -- 7.3.5 Adaptation and Prediction Algorithm 411 -- 7.3.6 Preequalization 411 -- 7.3.7 Frequency?]Domain Equalizer 418 -- 7.3.8 Turbo Equalizer 419 -- 7.3.9 Discussions on Equalization 419 -- 7.3.10 Applications to a Mobile Radio Channel 421 -- 7.4 Error Control Techniques 422 -- 7.4.1 Linear Block Codes 424 -- 7.4.2 Cyclic Codes 426 -- 7.4.3 Convolutional Codes 429 -- 7.4.4 Concatenated Codes 430 -- 7.4.5 Turbo Codes 430 -- 7.4.6 LDPC Code 444 -- 7.4.7 A Phenomenological Expression of the a Priori -- Probability and Error Rates 449 -- 7.4.8 ARQ 452 -- 7.4.9 Applications to Mobile Radio Channels 453 -- 7.5 Trellis?]Coded Modulation 453 -- 7.6 Adaptive Interference Cancellation 456 -- 7.6.1 Adaptive Array Antenna 457 -- 7.6.2 Adaptive Interference Suppression 466 -- 7.6.3 Discussion 467 -- 7.7 Voice Coding 469 -- 7.7.1 Pulse Code Modulation 470 -- 7.7.2 Delta Modulation 471 -- 7.7.3 Adaptive Differential Pulse Code Modulation 472.

7.7.4 Adaptive Predictive Coding 473 -- 7.7.5 Multipulse Coding 476 -- 7.7.6 Code?]Excited Linear Predictive (CELP) Coding 477 -- 7.7.7 LPC Vocoder 482 -- 7.7.8 Application to Mobile Radio Communications 482 -- Appendix 7.A Average Error Rate for Maximal Ratio -- Combiner with Coherent Detector 484 -- Appendix 7.B Average Error Rate of Maximal Ratio Combining -- System with Coherent Detector with Use of -- Approximate Probability Density Function 485 -- References 486 -- 8 Equipment and Circuits for Digital Mobile Radio 493 -- 8.1 Base Station 493 -- 8.2 Mobile Station 494 -- 8.3 Superheterodyne and Direct Conversion Receivers 495 -- 8.3.1 Image Rejection Downconverter 497 -- 8.4 Transmit and Receive Duplexing 501 -- 8.5 Frequency Synthesizer 501 -- 8.6 Transmitter Circuits 503 -- 8.6.1 Digital Signal Waveform Generator 503 -- 8.6.2 Modulator 504 -- 8.6.3 Linear Power Amplifier 507 -- 8.6.4 Transmit Power Control 525 -- 8.7 Receiver Circuits 527 -- 8.7.1 AGC Circuit 527 -- 8.7.2 Signal Processing with Logic Circuits 529 -- 8.7.3 Demodulator 532 -- 8.8 Countermeasures Against dc Blocking and dc Offset 535 -- Appendix 8.A Quarter?]wavelength Line 538 -- References 539 -- 9 Digital Mobile Radio Communication Systems 543 -- 9.1 Fundamental Concepts 543 -- 9.1.1 The Cellular Concept 543 -- 9.1.2 Multiple Access 551 -- 9.1.3 Channel Assignment 554 -- 9.1.4 Multiple?]Access System 563 -- 9.1.5 Intercell Interference Suppression 566 -- 9.1.6 Repeater System 566 -- 9.1.7 A Performance Analysis of Digital Cellular System 567 -- 9.2 Digital Transmission in Analog Mobile Communication -- Systems 577 -- 9.3 Paging Systems 578 -- 9.4 Two?]Way Digital Mobile Radio 579 -- 9.5 Mobile Data Service Systems 580 -- 9.5.1 MOBITEX 580 -- 9.5.2 Teleterminal System 580 -- 9.5.3 Mobile Data Systems in Analog Cellular Systems 580 -- 9.6 Digital Cordless Telephone 581 -- 9.6.1 Second?]Generation Cordless Telephone 581 -- 9.6.2 Digital European Cordless Telecommunications 582 -- 9.6.3 Personal Handy System 582.

9.7 Digital Mobile Telephone Systems 583 -- 9.7.1 The GSM System 584 -- 9.7.2 Digital Cellular Systems in North America 587 -- 9.7.3 Digital Cellular Systems in Japan 591 -- 9.7.4 Evolution of the Second?]Generation Systems 592 -- 9.7.5 The Third?]Generation System 592 -- 9.7.6 Evolution of 3G Systems 595 -- 9.7.7 WiMAX 599 -- 9.7.8 The Fourth-Generation System 600 -- 9.8 Wireless Local Area Network 600 -- 9.8.1 IEEE 802.11 Series 600 -- 9.8.2 Bluetooth 605 -- 9.8.3 UWB 605 -- 9.8.4 ZigBee 606 -- 9.8.5 BWN 606 -- 9.8.6 MBWA 608 -- Appendix 9.A Poisson Arrival Rates 608 -- References 609 -- Index 613.

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"This book emphasizes digital transmission methods. Beginning with an introduction to what digital mobile communication is, it presents mathematical analyses of signals, mobile radio channels,and digital modulation methods"-- Provided by publisher.

Also available in print.

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