Digital Signal Processing for RFID
-15%
portes grátis
Digital Signal Processing for RFID
Kaiser, Thomas; Zheng, Feng
John Wiley & Sons Inc
05/2016
312
Dura
Inglês
9781118824313
15 a 20 dias
Descrição não disponível.
Preface xi Acknowledgements xiii Abbreviations xv 1 Introduction 1 1.1 What is RFID? 1 1.2 A Brief History of RFID 2 1.3 Motivation and Scope of this Book 2 1.4 Notations 5 References 5 2 Fundamentals of RFID Systems 6 2.1 Operating Principles 6 2.2 Passive, Semi-Passive/Semi-Active and Active RFID 8 2.3 Analogue Circuits for RFID 10 2.4 Circuit Analysis for Signal Transfer in RFID 11 2.4.1 Equivalent Circuit of Antennas in Generic Communication Links 12 2.4.2 Load Modulation 13 2.4.3 Backscattering Modulation 15 2.5 Signal Analysis of RFID Systems 17 2.5.1 Qualitative Analysis 17 2.5.2 Quantitative Analysis 19 2.6 Statistical Channel Models 21 2.6.1 Backgrounds of Rayleigh, Ricean and Nakagami Fading 21 2.6.2 Statistical Channel Models of RFID Systems 26 2.6.3 Large Scale Path Loss 27 2.7 A Review of RFID Protocol 28 2.7.1 Physical Layer 29 2.7.2 MAC Layer 32 2.8 Challenges in RFID 36 2.9 Summary 36 Appendix 2.A Modified Bessel Function of the First Kind 37 References 38 3 Basic Signal Processing for RFID 40 3.1 Bandpass Filters and their Applications to RFID 40 3.1.1 Lowpass Filter Performance Specification 40 3.1.2 Lowpass Filter Design 42 3.1.3 Bandpass Filter Design 47 3.1.4 Bandpass Filters for RFID Systems 49 3.2 Matching Filters and their Applications to RFID 54 3.3 A Review of Optimal Estimation 58 3.3.1 Linear Least Square Estimation 58 3.3.2 Linear Minimum Mean Square Error Estimation 59 3.3.3 Maximum Likelihood Estimation 61 3.3.4 Comparison of the Three Estimation Algorithms 62 3.4 Summary 64 Appendix 3.A Derivation of Poles of the Chebyshev Filter 67 References 68 4 RFID-Oriented Modulation Schemes 69 4.1 A Brief Review of Analogue Modulation 69 4.2 Amplitude- and Phase-Shift Keying and Performance Analysis 72 4.2.1 M-ary Quadrature Amplitude Modulation 72 4.2.2 Symbol Error Rate Analysis of M-QAM 74 4.2.3 Numerical Results for M-QAM 80 4.3 Phase-Shift Keying and Performance Analysis 81 4.4 Frequency-Shift Keying and Performance Analysis 85 4.5 Summary 90 Appendix 4.A Derivation of SER Formula (4.24) 91 Appendix 4.B Derivation of SER Formula (4.40) 93 References 94 5 MIMO for RFID 95 5.1 Introduction 95 5.2 MIMO Principle 97 5.3 Channel Modelling of RFID-MIMO Wireless Systems 100 5.4 Design of Reader Transmit Signals 102 5.4.1 Signal Design 102 5.4.2 Simulation Results 103 5.5 Space-Time Coding for RFID-MIMO Systems 105 5.5.1 A Review of Real Orthogonal Design 105 5.5.2 Space-Time Coding for RFID-MIMO Systems 110 5.5.3 Two Space-Time Decoding Approaches for RFID-MIMO Systems 111 5.5.4 Simulation Results 113 5.6 Differential Space-Time Coding for RFID-MIMO Systems 122 5.6.1 A Review of Unitary DSTC 122 5.6.2 Application of Unitary DTSC to RFID 125 5.6.3 Simulation Results 126 5.7 Summary 127 Appendix 5.A Alamouti Space-Time Coding for Narrowband Systems 129 Appendix 5.B Definition of Group 133 Appendix 5.C Complex Matrix/Vector Gaussian Distribution 133 Appendix 5.D Maximum Likelihood Receiver for Unitary STC 134 References 136 6 Blind Signal Processing for RFID 138 6.1 Introduction 138 6.2 Channel Model of Multiple-Tag RFID-MIMO Systems 141 6.2.1 Channel Model of Single-Tag RFID-MIMO Systems 141 6.2.2 Channel Model of Multiple-Tag RFID-MIMO Systems 141 6.3 An Analytical Constant Modulus Algorithm 143 6.4 Application of ACMA to Multiple-Tag RFID Systems 150 6.5 Summary 160 References 164 7 Anti-Collision of Multiple-Tag RFID Systems 166 7.1 Introduction 166 7.2 Tree-Splitting Algorithms 168 7.2.1 Mean Identification Delay 171 7.2.2 Collision Analysis and Transmission Efficiency: Approach I 173 7.2.3 Collision Analysis and Transmission Efficiency: Approach II 175 7.2.4 Numerical Results 185 7.2.5 Variants of TS Algorithms 194 7.3 Aloha-Based Algorithm 194 7.3.1 Mean Identification Delay 195 7.3.2 Collision Analysis and Transmission Efficiency 197 7.3.3 Numerical Results 198 7.3.4 Adaptive Frame Size Aloha Algorithms 200 7.4 Summary 212 Appendix 7.A Inclusion-Exclusion Principle 213 Appendix 7.B Probability of Successful Transmissions in Some Particular Time Slots in Aloha 214 Appendix 7.C Probability of an Exact Number of Successful Transmissions in Aloha 215 References 217 8 Localization with RFID 220 8.1 Introduction 220 8.2 RFID Localization 223 8.2.1 Geometric Class 224 8.2.2 Proximity Class 228 8.3 RFID Ranging Frequency-Domain PDoA Approach 232 8.4 RFID AoA Finding Spatial-Domain PDoA 235 8.5 NLoS Issue 241 8.6 Summary 244 References 245 9 Some Future Perspectives for RFID 249
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Preface xi Acknowledgements xiii Abbreviations xv 1 Introduction 1 1.1 What is RFID? 1 1.2 A Brief History of RFID 2 1.3 Motivation and Scope of this Book 2 1.4 Notations 5 References 5 2 Fundamentals of RFID Systems 6 2.1 Operating Principles 6 2.2 Passive, Semi-Passive/Semi-Active and Active RFID 8 2.3 Analogue Circuits for RFID 10 2.4 Circuit Analysis for Signal Transfer in RFID 11 2.4.1 Equivalent Circuit of Antennas in Generic Communication Links 12 2.4.2 Load Modulation 13 2.4.3 Backscattering Modulation 15 2.5 Signal Analysis of RFID Systems 17 2.5.1 Qualitative Analysis 17 2.5.2 Quantitative Analysis 19 2.6 Statistical Channel Models 21 2.6.1 Backgrounds of Rayleigh, Ricean and Nakagami Fading 21 2.6.2 Statistical Channel Models of RFID Systems 26 2.6.3 Large Scale Path Loss 27 2.7 A Review of RFID Protocol 28 2.7.1 Physical Layer 29 2.7.2 MAC Layer 32 2.8 Challenges in RFID 36 2.9 Summary 36 Appendix 2.A Modified Bessel Function of the First Kind 37 References 38 3 Basic Signal Processing for RFID 40 3.1 Bandpass Filters and their Applications to RFID 40 3.1.1 Lowpass Filter Performance Specification 40 3.1.2 Lowpass Filter Design 42 3.1.3 Bandpass Filter Design 47 3.1.4 Bandpass Filters for RFID Systems 49 3.2 Matching Filters and their Applications to RFID 54 3.3 A Review of Optimal Estimation 58 3.3.1 Linear Least Square Estimation 58 3.3.2 Linear Minimum Mean Square Error Estimation 59 3.3.3 Maximum Likelihood Estimation 61 3.3.4 Comparison of the Three Estimation Algorithms 62 3.4 Summary 64 Appendix 3.A Derivation of Poles of the Chebyshev Filter 67 References 68 4 RFID-Oriented Modulation Schemes 69 4.1 A Brief Review of Analogue Modulation 69 4.2 Amplitude- and Phase-Shift Keying and Performance Analysis 72 4.2.1 M-ary Quadrature Amplitude Modulation 72 4.2.2 Symbol Error Rate Analysis of M-QAM 74 4.2.3 Numerical Results for M-QAM 80 4.3 Phase-Shift Keying and Performance Analysis 81 4.4 Frequency-Shift Keying and Performance Analysis 85 4.5 Summary 90 Appendix 4.A Derivation of SER Formula (4.24) 91 Appendix 4.B Derivation of SER Formula (4.40) 93 References 94 5 MIMO for RFID 95 5.1 Introduction 95 5.2 MIMO Principle 97 5.3 Channel Modelling of RFID-MIMO Wireless Systems 100 5.4 Design of Reader Transmit Signals 102 5.4.1 Signal Design 102 5.4.2 Simulation Results 103 5.5 Space-Time Coding for RFID-MIMO Systems 105 5.5.1 A Review of Real Orthogonal Design 105 5.5.2 Space-Time Coding for RFID-MIMO Systems 110 5.5.3 Two Space-Time Decoding Approaches for RFID-MIMO Systems 111 5.5.4 Simulation Results 113 5.6 Differential Space-Time Coding for RFID-MIMO Systems 122 5.6.1 A Review of Unitary DSTC 122 5.6.2 Application of Unitary DTSC to RFID 125 5.6.3 Simulation Results 126 5.7 Summary 127 Appendix 5.A Alamouti Space-Time Coding for Narrowband Systems 129 Appendix 5.B Definition of Group 133 Appendix 5.C Complex Matrix/Vector Gaussian Distribution 133 Appendix 5.D Maximum Likelihood Receiver for Unitary STC 134 References 136 6 Blind Signal Processing for RFID 138 6.1 Introduction 138 6.2 Channel Model of Multiple-Tag RFID-MIMO Systems 141 6.2.1 Channel Model of Single-Tag RFID-MIMO Systems 141 6.2.2 Channel Model of Multiple-Tag RFID-MIMO Systems 141 6.3 An Analytical Constant Modulus Algorithm 143 6.4 Application of ACMA to Multiple-Tag RFID Systems 150 6.5 Summary 160 References 164 7 Anti-Collision of Multiple-Tag RFID Systems 166 7.1 Introduction 166 7.2 Tree-Splitting Algorithms 168 7.2.1 Mean Identification Delay 171 7.2.2 Collision Analysis and Transmission Efficiency: Approach I 173 7.2.3 Collision Analysis and Transmission Efficiency: Approach II 175 7.2.4 Numerical Results 185 7.2.5 Variants of TS Algorithms 194 7.3 Aloha-Based Algorithm 194 7.3.1 Mean Identification Delay 195 7.3.2 Collision Analysis and Transmission Efficiency 197 7.3.3 Numerical Results 198 7.3.4 Adaptive Frame Size Aloha Algorithms 200 7.4 Summary 212 Appendix 7.A Inclusion-Exclusion Principle 213 Appendix 7.B Probability of Successful Transmissions in Some Particular Time Slots in Aloha 214 Appendix 7.C Probability of an Exact Number of Successful Transmissions in Aloha 215 References 217 8 Localization with RFID 220 8.1 Introduction 220 8.2 RFID Localization 223 8.2.1 Geometric Class 224 8.2.2 Proximity Class 228 8.3 RFID Ranging Frequency-Domain PDoA Approach 232 8.4 RFID AoA Finding Spatial-Domain PDoA 235 8.5 NLoS Issue 241 8.6 Summary 244 References 245 9 Some Future Perspectives for RFID 249
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