Introduction to Digital Mobile Communication.
- 1st ed.
- 1 online resource (646 pages)
- New York Academy of Sciences Series .
- New York Academy of Sciences Series .
Intro -- Title Page -- Copyright Page -- Contents -- Preface to the Second Edition -- Preface to the First Edition -- Chapter 1 Introduction -- 1.1 DIGITAL MOBILE RADIO COMMUNICATION SYSTEM -- 1.2 THE PURPOSE OF DIGITIZATION OF MOBILE RADIO COMMUNICATIONS -- 1.2.1 Data Communication -- 1.2.2 Voice Scrambling -- 1.2.3 Spectrum Efficiency -- 1.2.4 System Cost -- Chapter 2 Signal and Systems -- 2.1 SIGNAL ANALYSIS -- 2.1.1 Delta Function -- 2.1.2 Fourier Analysis -- 2.1.3 Signals -- 2.1.4 Digital Signals -- 2.1.5 Modulated Signals -- 2.1.6 The Equivalent Baseband Complex Expression -- 2.2 NOISE ANALYSIS -- 2.2.1 Noise in Communication System -- 2.2.2 Statistics of Noise -- 2.2.3 Power Spectral Density of Noise -- 2.2.4 Autocorrelation Function of Filtered Noise -- 2.2.5 Bandpass Noise -- 2.2.6 Envelope and Phase of a Sinusoidal Signal in Bandpass Noise -- 2.2.7 Generation of Correlated Noises and its Probability Density Function -- 2.2.8 Sums of Random Variables and the Central Limit Theorem -- 2.3 LINEAR SYSTEM -- 2.3.1 Linear Time-Invariant System -- 2.3.2 Response of Linear System -- 2.3.3 System Description with Differential Equations -- 2.3.4 Examples of Linear Systems -- 2.4 DISCRETE-TIME SYSTEM -- 2.4.1 Sampling and the Sampling Theorem -- 2.4.2 The Energy, Power, and Correlation of Discrete-Time Signals -- 2.4.3 The Fourier Transform of Discrete-Time Signals -- 2.4.4 Response of Discrete-Time System -- 2.4.5 Description with Difference Equation -- 2.4.6 Digital Filter -- 2.4.7 Downsampling, Upsampling, and Subsampling -- 2.4.8 Inverse Circuit -- 2.4.9 Window Function -- 2.4.10 Discrete Fourier Transform -- 2.4.11 The Fast Fourier Transform -- 2.5 OPTIMIZATION AND ADAPTIVE SIGNAL PROCESSING -- 2.5.1 Solution of Optimization Problem -- 2.5.2 Adaptive Signal Processing -- APPENDIX 2.A. APPENDIX 2.B CONDITIONS FOR A TEST FUNCTION FOR THE DELTA FUNCTION, -- APPENDIX 2.C FORMULAE FOR THE TRIGONOMETRIC FUNCTIONS -- REFERENCES -- Chapter 3 The Elements of Digital Communication System -- 3.1 PULSE SHAPING -- 3.1.1 Nyquist's First Criterion -- 3.1.2 Nyquist's Second Criterion -- 3.1.3 Nyquist's Third Criterion -- 3.1.4 Other Pulse-Shaping Methods -- 3.2 LINE CODING -- 3.2.1 Unipolar (On-Off) Code and Polar Codes -- 3.2.2 Multilevel Codes -- 3.2.3 The Gray Codes -- 3.2.4 Manchester (Split-Phase) Code -- 3.2.5 Synchronized Frequency Shift Keying Code -- 3.2.6 Correlative Coding -- 3.2.7 Differential Encoding -- 3.3 SIGNAL DETECTION -- 3.3.1 C/N, S/N, and Eb/N0 -- 3.3.2 Bit Error Rate -- 3.3.3 NRZ Signaling with Integrate-and-Dump Filter Detection -- 3.3.4 Nyquist-I Signaling System -- 3.3.5 The Matched Filter -- 3.3.6 Joint Optimization of the Transmit and the Receive Filters -- 3.3.7 The Optimum Receiver -- 3.3.8 The Maximum-Likelihood Receiver and the Viterbi Algorithm -- 3.3.9 The Optimum Receiver for Signals without Intersymbol Interference -- 3.4 SYNCHRONIZATION -- 3.4.1 Symbol Timing Recovery -- 3.4.2 Frame Synchronization -- 3.5 SCRAMBLING -- 3.6 PUBLIC KEY CRYPTOSYSTEM -- 3.7 MULTIPLEXING AND MULTIPLE ACCESS -- 3.8 THE CHANNEL CAPACITY -- APPENDIX 3.A FERMAT'S THEOREM AND THE CHINESE REMAINDER THEOREM -- REFERENCES -- Chapter 4 Mobile Radio Channels -- 4.1 PATH LOSS -- 4.2 SHADOWING -- 4.3 FAST FADING -- 4.3.1 RF Power Spectrum Spread due to Fast Fading -- 4.3.2 Correlations Between the In-phase and Quadrature Components -- 4.3.3 Correlation of the Envelope -- 4.3.4 Spatial Correlation of the Envelope -- 4.3.5 Random Frequency Modulation -- 4.4 DELAY SPREAD AND FREQUENCY-SELECTIVE FADING -- 4.4.1 Coherence Bandwidth -- 4.4.2 Frequency-Selective Fading -- 4.5 THE NEAR-FAR PROBLEM -- 4.6 COCHANNEL INTERFERENCE -- 4.6.1 Rayleigh Fading. 4.6.2 Shadowing -- 4.6.3 Combined Fading and Shadowing -- 4.6.4 Discussion -- 4.7 RECEIVE POWER DISTRIBUTION AND RADIO CHANNEL DESIGN -- 4.7.1 Receive Power Distribution -- 4.7.2 Channel Link Design -- APPENDIX 4.A PROPAGATION LOSS FORMULA -- APPENDIX 4.B INTERFERENCE PROBABILITY UNDER SHADOWING -- APPENDIX 4.C INTERFERENCE PROBABILITY UNDER COMBINED FADING AND SHADOWING -- REFERENCES -- Chapter 5 Elements of Digital Modulation -- 5.1 DIGITALLY MODULATED SIGNALS -- 5.2 LINEAR MODULATION VERSUS CONSTANT ENVELOPE MODULATION -- 5.3 DIGITAL MODULATIONS -- 5.3.1 Phase Shift Keying -- 5.3.2 Frequency Shift Keying -- 5.3.3 Constant Envelope PSK -- 5.3.4 Quadrature Amplitude Modulation -- 5.4 POWER SPECTRAL DENSITY OF DIGITALLY MODULATED SIGNALS -- 5.4.1 Linear Modulation -- 5.4.2 Digital FM -- 5.5 DEMODULATION -- 5.5.1 Coherent Detection -- 5.5.2 Envelope Detection -- 5.5.3 Differential Detection -- 5.5.4 Frequency Discriminator Detection -- 5.5.5 Error Rates in Fading Channels -- 5.6 COMPUTER SIMULATION OF TRANSMISSION SYSTEMS -- APPENDIX 5.A DISTORTION OF MODULATED SIGNAL APPLIED TO A NONLINEAR CIRCUIT -- APPENDIX 5.B DERIVATION OF THE EXPECTED GAUSSIAN NOISE POWER FOR FREQUENCY DISCRIMINATOR -- APPENDIX 5.C M-SEQUENCE GENERATOR -- REFERENCES -- Chapter 6 Digital Modulation/Demodulation for Mobile Radio Communication -- 6.1 DIGITAL MODULATION FOR ANALOG FM MOBILE RADIO SYSTEMS -- 6.2 CONSTANT ENVELOPE MODULATION -- 6.2.1 MSK -- 6.2.2 Partial-Response Digital FM -- 6.2.3 Nyquist-Filtered Digital FM -- 6.2.4 Performance Comparison -- 6.3 LINEAR MODULATION -- 6.3.1 π/4-Shifted QPSK -- 6.3.2 Eight-Level PSK -- 6.3.3 16QAM -- 6.4 SPREAD-SPECTRUM SYSTEM -- 6.5 MULTICARRIER TRANSMISSION -- 6.5.1 Orthogonal Frequency-Division Multiplexing -- 6.5.2 Generation of Multicarrier Digital Signal -- 6.5.3 Demodulation of Multicarrier Signals. 6.6 SINGLE-CARRIER FREQUENCY-DIVISION MODULATION -- APPENDIX 6.A MATHEMATICAL PRINCIPLE OF ORTHOGONAL FREQUENCY-DIVISION MULTIPLEXING -- 6.A.1 Band-Limited System -- 6.A.2 Nonband-Limited System -- REFERENCES -- Chapter 7 Other Topics in Digital Mobile Radio Transmission -- 7.1 DIVERSITY TRANSMISSION SYSTEM -- 7.1.1 Probability Density Function of SNR for Diversity System -- 7.1.2 Average Error Rate for Diversity Systems -- 7.1.3 Multiple Transmitter Diversity System -- 7.1.4 Antenna Selection Diversity System -- 7.2 MULTI-INPUT MULTI-OUTPUT SYSTEMS -- 7.2.1 Maximal Ratio Combining Diversity Systems -- 7.2.2 Space-Time Codes -- 7.2.3 SDM in MIMO Systems -- 7.3 ADAPTIVE AUTOMATIC EQUALIZER -- 7.3.1 Linear Equalizer -- 7.3.2 Performance Criteria for Equalization -- 7.3.3 Decision Feedback Equalizer -- 7.3.4 The Viterbi Equalizer -- 7.3.5 Adaptation and Prediction Algorithm -- 7.3.6 Preequalization -- 7.3.7 Frequency-Domain Equalizer -- 7.3.8 Turbo Equalizer -- 7.3.9 Discussions on Equalization -- 7.3.10 Applications to a Mobile Radio Channel -- 7.4 ERROR CONTROL TECHNIQUES -- 7.4.1 Linear Block Codes -- 7.4.2 Cyclic Codes -- 7.4.3 Convolutional Codes -- 7.4.4 Concatenated Codes -- 7.4.5 Turbo Codes -- 7.4.6 LDPC Code -- 7.4.7 A Phenomenological Expression of the A Priori Probability and Error Rates -- 7.4.8 ARQ -- 7.4.9 Applications to Mobile Radio Channels -- 7.5 TRELLIS-CODED MODULATION -- 7.6 Adaptive Interference Cancellation -- 7.6.1 Adaptive Array Antenna -- 7.6.2 Adaptive Interference Suppression -- 7.6.3 Discussion -- 7.7 VOICE CODING -- 7.7.1 Pulse Code Modulation -- 7.7.2 Delta Modulation -- 7.7.3 Adaptive Differential Pulse Code Modulation -- 7.7.4 Adaptive Predictive Coding -- 7.7.5 Multipulse Coding -- 7.7.6 Code-Excited Linear Predictive (CELP) Coding -- 7.7.7 LPC Vocoder -- 7.7.8 Application to Mobile Radio Communications. APPENDIX 7.A AVERAGE ERROR RATE FOR MAXIMAL RATIO COMBINER WITH COHERENT DETECTOR -- APPENDIX 7.B AVERAGE ERROR RATE OF MAXIMAL RATIO COMBINING SYSTEM WITH COHERENT DETECTOR WITH USE OF APPROXIMATE PROBABILITY DENSITY FUNCTION -- REFERENCES -- Chapter 8 Equipment and Circuits for Digital Mobile Radio -- 8.1 BASE STATION -- 8.2 MOBILE STATION -- 8.3 SUPERHETERODYNE AND DIRECT CONVERSION RECEIVERS -- 8.3.1 Image Rejection Downconverter -- 8.4 TRANSMIT AND RECEIVE DUPLEXING -- 8.5 FREQUENCY SYNTHESIZER -- 8.6 TRANSMITTER CIRCUITS -- 8.6.1 Digital Signal Waveform Generator -- 8.6.2 Modulator -- 8.6.3 Linear Power Amplifier -- 8.6.4 Transmit Power Control -- 8.7 RECEIVER CIRCUITS -- 8.7.1 AGC Circuit -- 8.7.2 Signal Processing with Logic Circuits -- 8.7.3 Demodulator -- 8.8 COUNTERMEASURES AGAINST DC BLOCKING AND DC OFFSET -- APPENDIX 8.A QUARTER-WAVELENGTH LINE -- REFERENCES -- Chapter 9 Digital Mobile Radio Communication Systems -- 9.1 FUNDAMENTAL CONCEPTS -- 9.1.1 The Cellular Concept -- 9.1.2 Multiple Access -- 9.1.3 Channel Assignment -- 9.1.4 Multiple-Access System -- 9.1.5 Intercell Interference Suppression -- 9.1.6 Repeater System -- 9.1.7 A Performance Analysis of Digital Cellular System -- 9.2 DIGITAL TRANSMISSION IN ANALOG MOBILE COMMUNICATION SYSTEMS -- 9.3 PAGING SYSTEMS -- 9.4 TWO-WAY DIGITAL MOBILE RADIO -- 9.5 MOBILE DATA SERVICE SYSTEMS -- 9.5.1 MOBITEX -- 9.5.2 Teleterminal System -- 9.5.3 Mobile Data Systems in Analog Cellular Systems -- 9.6 DIGITAL CORDLESS TELEPHONE -- 9.6.1 Second-Generation Cordless Telephone -- 9.6.2 Digital European Cordless Telecommunications -- 9.6.3 Personal Handy System -- 9.7 DIGITAL MOBILE TELEPHONE SYSTEMS -- 9.7.1 The GSM System -- 9.7.2 Digital Cellular Systems in North America -- 9.7.3 Digital Cellular Systems in Japan -- 9.7.4 Evolution of the Second-Generation Systems. 9.7.5 The Third-Generation System.
9781119041115
Digital communications. Mobile communication systems.