Introduction to Communication Systems Simulation.

By: Schiff, MauriceMaterial type: TextTextPublisher: Norwood : Artech House, 2006Copyright date: ©2006Description: 1 online resource (223 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9781596930032Subject(s): Telecommunication systems -- Computer simulation | TelecommunicationGenre/Form: Electronic books.Additional physical formats: Print version:: Introduction to Communication Systems SimulationDDC classification: 621.382 LOC classification: TK5102.5 -- .S355 2006ebOnline resources: Click to View
Contents:
Introduction to Communication Systems Simulation -- Contents -- Preface xiii -- 1 Elements of a Communication System 1 -- 1.1 The Transmitter 1 -- 1.1.1 The Data Source 1 -- 1.1.2 Source Encoding 1 -- 1.1.3 Forward Error Correction 6 -- 1.1.4 Interleaving 7 -- 1.1.5 Baseband Filtering 8 -- 1.1.6 Modulation 8 -- 1.2 The Transmission Channel 8 -- 1.2.1 Additive White Gaussian Noise 9 -- 1.2.2 Interference 9 -- 1.2.3 Fading 9 -- 1.3 Receiver 10 -- 1.3.1 Frequency Offset 10 -- 1.3.2 Phase Offset 10 -- 1.3.3 Timing Offset 11 -- 1.3.4 Data Recovery 11 -- 1.4 Conclusion 11 -- Selected Bibliography 11 -- 2 Linear Time Invariant Systems 13 -- 2.1 LTI Systems 13 -- 2.2 Fourier Transform (FT) Theory 15 -- 2.3 The Digital Fourier Transform 17 -- 2.4 DFT Windows 21 -- 2.5 The Fast Fourier Transform 25 -- 2.6 Conclusion 27 -- Selected Bibliography 27 -- 3 Sampling 29 -- 3.1 The Sampling Operation 29 -- 3.2 The Nyquist Sampling Theorem 33 -- 3.3 Recovering the Signal from Its Samples 38 -- 3.4 Band-Pass Sampling 41 -- 3.5 Conclusion 44 -- Selected Bibliography 45 -- 4 Filters 47 -- 4.1 General Considerations 47 -- 4.2 The Laplace Transform 50 -- 4.3 Poles, Zeros, and Stability 51 -- 4.4 The Two Worlds of a Filter 53 -- 4.4.1 Infinite Impulse Response filters 53 -- 4.4.2 Finite Impulse Response Filters 54 -- 4.5 The z Transform 54 -- 4.6 From s to z 55 -- 4.7 Frequency Warping 58 -- 4.8 The IIR Filter 59 -- 4.9 General Implementation of a Filter of Form N(z)/D(z) 61 -- 4.10 Practical Consideration in IIR Filter Simulation 62 -- 4.11 Conclusion 63 -- Selected Bibliography 63 -- 5 Digital Detection 65 -- 5.1 The Vector Channel 65 -- 5.2 The Waveform Channel 68 -- 5.3 The Matched Filter Receiver 69 -- 5.4 From Signals to Vectors 73 -- 5.5 The I, Q Vector Space 76 -- 5.6 Conclusion 77 -- Selected Bibliography 77 -- 6 Modulation 79.
6.1 Amplitude Modulation (MASK) 79 -- 6.2 Frequency Modulation (MFSK) 79 -- 6.3 Phase Modulation (MPSK) 83 -- 6.4 p/4 DQPSK Modulation 86 -- 6.5 Offset QPSK Modulation 86 -- 6.6 QAM Modulation 86 -- 6.7 MSK Modulation 88 -- 6.8 OFDM Modulation 89 -- 6.9 Pulse Position Modulation 92 -- 6.10 Pulse Width Modulation 93 -- 6.11 GSM EDGE Modulation 93 -- 6.12 Spread Spectrum Modulation 94 -- 6.12.1 Frequency Hopping 96 -- 6.12.2 Direct Sequence Pseudo Noise 96 -- 6.13 Conclusion 102 -- Selected Bibliography 102 -- 7 Demodulation 103 -- 7.1 In-Phase (I) and Quadrature (Q) Down Conversion Process 103 -- 7.2 Low-Pass Filtering 104 -- 7.2.1 CIC Filter 105 -- 7.2.2 Polyphase Filter 105 -- 7.2.3 Half Band Filter 106 -- 7.3 Offset Parameter Recovery 107 -- 7.3.1 Frequency Offset 107 -- 7.3.2 Data Timing 110 -- 7.4 Phase/Frequency Recovery 112 -- 7.4.1 BPSK 113 -- 7.4.2 QPSK 114 -- 7.4.3 Decision Feedback 115 -- 7.5 Conclusion 115 -- Selected Bibliography 117 -- 8 Baseband Pulse Shaping 119 -- 8.1 Baseband Pulse Analyses 119 -- 8.2 The Raised Cosine Pulse 122 -- 8.3 Intersymbol Interference and Eye Diagrams 125 -- 8.4 The Root Raised Cosine Filter 128 -- 8.5 Conclusion 129 -- Selected Bibliography 130 -- 9 Bit Error Rate Calculations 131 -- 9.1 The BER Measurement Process 131 -- 9.2 System Group Delay 133 -- 9.3 Eb/N0 Calibration 135 -- 9.3.1 Physical RF World Simulation 135 -- 9.3.2 Standard BER Runs 137 -- 9.4 Conclusion 137 -- Selected Bibliography 137 -- 10 Channel Models 139 -- 10.1 Flat Fading 139 -- 10.2 Rician Flat Fade 142 -- 10.3 The Jakes Model 143 -- 10.4 Frequency Selective Fading 144 -- 10.5 Effects of Fading on BER Performance 146 -- 10.6 Mitigating Fading 148 -- 10.6.1 Equalizers 148 -- 10.6.2 Diversity 153 -- 10.7 Conclusion 154 -- Selected Bibliography 154 -- 11 Nonlinear Amplifiers 155 -- 11.1 Intercept and Compression Points 155.
11.2 TWT 159 -- 11.3 Spur Charts 159 -- 11.4 Conclusion 162 -- Selected Bibliography 162 -- 12 Baseband Simulation 163 -- 12.1 Basic Concept 163 -- 12.2 Pass-Band Filtering 164 -- 12.3 Baseband Noise 166 -- 12.4 Conclusion 167 -- Selected Bibliography 167 -- 13 Ultra-Wideband Systems 169 -- 13.1 Direct Sequence DS-UWB Systems 170 -- 13.1.1 Scrambler 170 -- 13.1.2 Forward Error Correction 171 -- 13.1.3 Puncturing 171 -- 13.1.4 Interleaver 172 -- 13.1.5 Modulation 173 -- 13.2 Multiband OFDM UWB-Multiband OFDM Alliance Systems 178 -- 13.2.1 FEC Coding 180 -- 13.2.2 Puncturing 181 -- 13.2.3 Modulation 181 -- 13.2.4 Carrier Modulation Frequency Agility 184 -- 13.3 Conclusion 184 -- Selected Bibliography 184 -- APPENDIX A -- APPENDIX B -- B.1 Probability Theory 187 -- B.1.1 Axioms of Probability 187 -- B.1.2 Dice Example 187 -- B.1.3 Conditional Probability 189 -- B.2 Random Variables 190 -- B.2.1 The Gaussian Random Variable 191 -- B.2.2 The Uniform Distribution 193 -- Selected Bibliography 193 -- APPENDIX C -- Error Correcting Codes 195 -- C.1 Block Codes 195 -- C.1.1 Generating the Codes 195 -- C.2 Convolutional Codes 201 -- C.2.1 Punctured Codes 203 -- C.2.2 Decoding Convolutional Codes 204 -- C.2.3 Hard Versus Soft Decoding 205 -- Selected Bibliography 206 -- APPENDIX D -- Trivia Question 207 -- Selected Bibliography 207 -- About the Author 209 -- Index 211.
Summary: Here is your one-stop resource on the essentials of communications systems analysis and simulation. Presented in a straight forward, easy-to-understand manner, the book provides a thorough treatment of all the important fundamental topics such as sampling, frequency analysis, linear systems, and filters. You gain a clear understanding of the real-world effects of computer simulation and learn how to perform efficient bit error rate (BER) calculations and baseband simulations.
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Introduction to Communication Systems Simulation -- Contents -- Preface xiii -- 1 Elements of a Communication System 1 -- 1.1 The Transmitter 1 -- 1.1.1 The Data Source 1 -- 1.1.2 Source Encoding 1 -- 1.1.3 Forward Error Correction 6 -- 1.1.4 Interleaving 7 -- 1.1.5 Baseband Filtering 8 -- 1.1.6 Modulation 8 -- 1.2 The Transmission Channel 8 -- 1.2.1 Additive White Gaussian Noise 9 -- 1.2.2 Interference 9 -- 1.2.3 Fading 9 -- 1.3 Receiver 10 -- 1.3.1 Frequency Offset 10 -- 1.3.2 Phase Offset 10 -- 1.3.3 Timing Offset 11 -- 1.3.4 Data Recovery 11 -- 1.4 Conclusion 11 -- Selected Bibliography 11 -- 2 Linear Time Invariant Systems 13 -- 2.1 LTI Systems 13 -- 2.2 Fourier Transform (FT) Theory 15 -- 2.3 The Digital Fourier Transform 17 -- 2.4 DFT Windows 21 -- 2.5 The Fast Fourier Transform 25 -- 2.6 Conclusion 27 -- Selected Bibliography 27 -- 3 Sampling 29 -- 3.1 The Sampling Operation 29 -- 3.2 The Nyquist Sampling Theorem 33 -- 3.3 Recovering the Signal from Its Samples 38 -- 3.4 Band-Pass Sampling 41 -- 3.5 Conclusion 44 -- Selected Bibliography 45 -- 4 Filters 47 -- 4.1 General Considerations 47 -- 4.2 The Laplace Transform 50 -- 4.3 Poles, Zeros, and Stability 51 -- 4.4 The Two Worlds of a Filter 53 -- 4.4.1 Infinite Impulse Response filters 53 -- 4.4.2 Finite Impulse Response Filters 54 -- 4.5 The z Transform 54 -- 4.6 From s to z 55 -- 4.7 Frequency Warping 58 -- 4.8 The IIR Filter 59 -- 4.9 General Implementation of a Filter of Form N(z)/D(z) 61 -- 4.10 Practical Consideration in IIR Filter Simulation 62 -- 4.11 Conclusion 63 -- Selected Bibliography 63 -- 5 Digital Detection 65 -- 5.1 The Vector Channel 65 -- 5.2 The Waveform Channel 68 -- 5.3 The Matched Filter Receiver 69 -- 5.4 From Signals to Vectors 73 -- 5.5 The I, Q Vector Space 76 -- 5.6 Conclusion 77 -- Selected Bibliography 77 -- 6 Modulation 79.

6.1 Amplitude Modulation (MASK) 79 -- 6.2 Frequency Modulation (MFSK) 79 -- 6.3 Phase Modulation (MPSK) 83 -- 6.4 p/4 DQPSK Modulation 86 -- 6.5 Offset QPSK Modulation 86 -- 6.6 QAM Modulation 86 -- 6.7 MSK Modulation 88 -- 6.8 OFDM Modulation 89 -- 6.9 Pulse Position Modulation 92 -- 6.10 Pulse Width Modulation 93 -- 6.11 GSM EDGE Modulation 93 -- 6.12 Spread Spectrum Modulation 94 -- 6.12.1 Frequency Hopping 96 -- 6.12.2 Direct Sequence Pseudo Noise 96 -- 6.13 Conclusion 102 -- Selected Bibliography 102 -- 7 Demodulation 103 -- 7.1 In-Phase (I) and Quadrature (Q) Down Conversion Process 103 -- 7.2 Low-Pass Filtering 104 -- 7.2.1 CIC Filter 105 -- 7.2.2 Polyphase Filter 105 -- 7.2.3 Half Band Filter 106 -- 7.3 Offset Parameter Recovery 107 -- 7.3.1 Frequency Offset 107 -- 7.3.2 Data Timing 110 -- 7.4 Phase/Frequency Recovery 112 -- 7.4.1 BPSK 113 -- 7.4.2 QPSK 114 -- 7.4.3 Decision Feedback 115 -- 7.5 Conclusion 115 -- Selected Bibliography 117 -- 8 Baseband Pulse Shaping 119 -- 8.1 Baseband Pulse Analyses 119 -- 8.2 The Raised Cosine Pulse 122 -- 8.3 Intersymbol Interference and Eye Diagrams 125 -- 8.4 The Root Raised Cosine Filter 128 -- 8.5 Conclusion 129 -- Selected Bibliography 130 -- 9 Bit Error Rate Calculations 131 -- 9.1 The BER Measurement Process 131 -- 9.2 System Group Delay 133 -- 9.3 Eb/N0 Calibration 135 -- 9.3.1 Physical RF World Simulation 135 -- 9.3.2 Standard BER Runs 137 -- 9.4 Conclusion 137 -- Selected Bibliography 137 -- 10 Channel Models 139 -- 10.1 Flat Fading 139 -- 10.2 Rician Flat Fade 142 -- 10.3 The Jakes Model 143 -- 10.4 Frequency Selective Fading 144 -- 10.5 Effects of Fading on BER Performance 146 -- 10.6 Mitigating Fading 148 -- 10.6.1 Equalizers 148 -- 10.6.2 Diversity 153 -- 10.7 Conclusion 154 -- Selected Bibliography 154 -- 11 Nonlinear Amplifiers 155 -- 11.1 Intercept and Compression Points 155.

11.2 TWT 159 -- 11.3 Spur Charts 159 -- 11.4 Conclusion 162 -- Selected Bibliography 162 -- 12 Baseband Simulation 163 -- 12.1 Basic Concept 163 -- 12.2 Pass-Band Filtering 164 -- 12.3 Baseband Noise 166 -- 12.4 Conclusion 167 -- Selected Bibliography 167 -- 13 Ultra-Wideband Systems 169 -- 13.1 Direct Sequence DS-UWB Systems 170 -- 13.1.1 Scrambler 170 -- 13.1.2 Forward Error Correction 171 -- 13.1.3 Puncturing 171 -- 13.1.4 Interleaver 172 -- 13.1.5 Modulation 173 -- 13.2 Multiband OFDM UWB-Multiband OFDM Alliance Systems 178 -- 13.2.1 FEC Coding 180 -- 13.2.2 Puncturing 181 -- 13.2.3 Modulation 181 -- 13.2.4 Carrier Modulation Frequency Agility 184 -- 13.3 Conclusion 184 -- Selected Bibliography 184 -- APPENDIX A -- APPENDIX B -- B.1 Probability Theory 187 -- B.1.1 Axioms of Probability 187 -- B.1.2 Dice Example 187 -- B.1.3 Conditional Probability 189 -- B.2 Random Variables 190 -- B.2.1 The Gaussian Random Variable 191 -- B.2.2 The Uniform Distribution 193 -- Selected Bibliography 193 -- APPENDIX C -- Error Correcting Codes 195 -- C.1 Block Codes 195 -- C.1.1 Generating the Codes 195 -- C.2 Convolutional Codes 201 -- C.2.1 Punctured Codes 203 -- C.2.2 Decoding Convolutional Codes 204 -- C.2.3 Hard Versus Soft Decoding 205 -- Selected Bibliography 206 -- APPENDIX D -- Trivia Question 207 -- Selected Bibliography 207 -- About the Author 209 -- Index 211.

Here is your one-stop resource on the essentials of communications systems analysis and simulation. Presented in a straight forward, easy-to-understand manner, the book provides a thorough treatment of all the important fundamental topics such as sampling, frequency analysis, linear systems, and filters. You gain a clear understanding of the real-world effects of computer simulation and learn how to perform efficient bit error rate (BER) calculations and baseband simulations.

Description based on publisher supplied metadata and other sources.

Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2018. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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