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Ultra-Wideband Antennas and Propagation
For Communications, Radar and Imaging
Ben Allen (Edited by), B Allen (Author), Mischa Dohler (Edited by), Ernest Okon (Edited by), Wasim Malik (Edited by), Anthony Brown (Edited by), David Edwards (Edited by)
9780470032558, Wiley
Hardback, published 6 October 2006
508 pages
25.2 x 17.6 x 3.4 cm, 1.049 kg
Providing up-to-date material for UWB antennas and propagation as used in a wide variety of applications, "Ultra-wideband Antennas and Propagation for Communications, Radar and Imaging" includes fundamental theory, practical design information and extensive discussion of UWB applications from biomedical imaging, through to radar and wireless communications. An in-depth treatment of ultra-wideband signals in practical environments is given, including interference, coexistence and diversity considerations. The text includes antennas and propagation in biological media in addition to more conventional environments. The topics covered are approached with the aim of helping practising engineers to view the subject from a different angle, and to consider items as variables that were treated as constants in narrowband and wideband systems. The book highlights the unique design issues of using ultra-wideband and will serve both as an introductory text and a reference guide for designers and students alike.
Editors xv Prime Contributors xvii Preface xxi Acknowledgments xxvii Abbreviations & Acronyms xxix 1 Introduction to UWB Signals and Systems 1 1.1 History of UWB 1 1.2 Motivation 3 1.3 UWB Signals and Systems 6 1.4 Frequency Regulation 12 1.5 Applications, Operating Scenarios and Standardisation 13 1.6 System Outlook 15 References 16 Part I Fundamentals 19 Introduction to Part I 21 2 Fundamental Electromagnetic Theory 25 2.1 Introduction 25 2.2 Maxwell’s Equations 25 2.3 Resulting Principles 30 References 30 3 Basic Antenna Elements 31 3.1 Introduction 31 3.2 Hertzian Dipole 31 3.3 Antenna Parameters and Terminology 34 3.4 Basic Antenna Elements 42 References 47 4 Antenna Arrays 49 4.1 Introduction 49 4.2 Point Sources 49 4.3 The Principle of Pattern Multiplication 55 4.4 Linear Arrays of n Elements 56 4.5 Linear Broadside Arrays with Nonuniform Amplitude Distributions 58 4.6 Planar Arrays 62 4.7 Design Considerations 65 4.8 Summary 66 References 66 5 Beamforming 67 5.1 Introduction 67 5.2 Antenna Arrays 69 5.3 Adaptive Array Systems 73 5.4 Beamforming 75 5.5 Summary 86 References 87 6 Antenna Diversity Techniques 89 6.1 Introduction 89 6.2 A Review of Fading 89 6.3 Receive Diversity 93 6.4 Transmit Diversity 100 6.5 MIMO Diversity Systems 102 References 103 Part II Antennas for UWB Communications 105 Introduction to Part II 107 7 Theory of UWB Antenna Elements 111 7.1 Introduction 111 7.2 Mechanism of UWB Monopole Antennas 112 7.3 Planar UWB Monopole Antennas 121 7.4 Planar UWB Slot Antennas 132 7.5 Time-Domain Characteristics of Monopoles 140 7.6 Summary 144 Acknowledgements 144 References 144 8 Antenna Elements for Impulse Radio 147 8.1 Introduction 147 8.2 UWB Antenna Classification and Design Considerations 148 8.3 Omnidirectional and Directional Designs 153 8.4 Summary 160 References 161 9 Planar Dipole-like Antennas for Consumer Products 163 9.1 Introduction 163 9.2 Computer Modelling and Measurement Techniques 164 9.3 Bicone Antennas and the Lossy Transmission Line Model 164 9.4 Planar Dipoles 167 9.5 Practical Antennas 178 9.6 Summary 194 Acknowledgements 195 References 195 10 UWB Antenna Elements for Consumer Electronic Applications 197 10.1 Introduction 197 10.2 Numerical Modelling and Extraction of the UWB Characterisation 199 10.3 Antenna Design and Integration 205 10.4 Propagation Modelling 214 10.5 System Analysis 215 10.6 Conclusions 218 References 220 11 Ultra-wideband Arrays 221 11.1 Introduction 221 11.2 Linear Arrays 221 11.3 Null and Maximum Directions for Uniform Arrays 225 11.4 Phased Arrays 230 11.5 Elements for UWB Array Design 232 11.6 Modelling Considerations 234 11.7 Feed Configurations 234 11.8 Design Considerations 238 11.9 Summary 239 References 240 12 UWB Beamforming 241 12.1 Introduction 241 12.2 Basic Concept 242 12.3 A Simple Delay-line Transmitter Wideband Array 243 12.4 UWB Mono-pulse Arrays 249 12.5 Summary 257 References 258 Part III Propagation Measurements and Modelling for UWB Communications 259 Introduction to Part III 261 13 Analysis of UWB Signal Attenuation Through Typical Building Materials 265 13.1 Introduction 265 13.2 A Brief Overview of Channel Characteristics 267 13.3 The Materials Under Test 270 13.4 Experimental Campaign 272 13.5 Conclusions 281 References 281 14 Large- and Medium-scale Propagation Modelling 283 14.1 Introduction 283 14.2 Deterministic Models 284 14.3 Statistical-Empirical Models 297 14.4 Standardised Reference Models 303 14.5 Conclusions 306 References 306 15 Small-scale Ultra-wideband Propagation Modelling 309 15.1 Introduction 309 15.2 Small-scale Channel Modelling 310 15.3 Spatial Modelling 321 15.4 IEEE 802.15.3a Standard Model 324 15.5 IEEE 802.15.4a Standard Model 325 15.6 Summary 327 References 327 16 Antenna Design and Propagation Measurements and Modelling for UWBWireless BAN 331 16.1 Introduction 331 16.2 Propagation Channel Measurements and Characteristics 332 16.3 WBAN Channel Modelling 345 16.4 UWB System-Level Modelling of Potential Body-Centric Networks 353 16.5 Summary 355 References 358 17 Ultra-wideband Spatial Channel Characteristics 361 17.1 Introduction 361 17.2 Preliminaries 361 17.3 UWB Spatial Channel Representation 362 17.4 Characterisation Techniques 363 17.5 Increase in the Communication Rate 364 17.6 Signal Quality Improvement 370 17.7 Performance Parameters 375 17.8 Summary 381 References 381 Part IV UWB Radar, Imaging and Ranging 385 Introduction to Part IV 387 18 Localisation in NLOS Scenarios with UWB Antenna Arrays 389 18.1 Introduction 389 18.2 Underlying Mathematical Framework 394 18.3 Properties of UWB Beamforming 398 18.4 Beamloc Approach 401 18.5 Algorithmic Framework 403 18.6 Time-delay Estimation 404 18.7 Simulation Results 406 18.8 Conclusions 410 References 410 19 Antennas for Ground-penetrating Radar 413 19.1 Introduction 413 19.2 GPR Example Applications 413 19.3 Analysis and GPR Design 419 19.4 Antenna Elements 425 19.5 Antenna Measurements, Analysis and Simulation 430 19.6 Conclusions 433 Acknowledgements 434 References 434 20 Wideband Antennas for Biomedical Imaging 437 20.1 Introduction 437 20.2 Detection and Imaging 437 20.3 Waveform Choice and Antenna Design Criteria 440 20.4 Antenna Elements 441 20.5 Measurements, Analysis and Simulation 445 20.6 Conclusions 447 Acknowledgements 448 References 448 21 UWB Antennas for Radar and Related Applications 451 21.1 Introduction 451 21.2 Medium- and Long-Range Radar 452 21.3 UWB Reflector Antennas 453 21.4 UWB Feed Designs 459 21.5 Feeds with Low Dispersion 461 21.6 Summary 468 References 468 Index 471
Andreas F. Molisch
Wasim Q. Malik and David J. Edwards
Mischa Dohler
Mischa Dohler
Ernest E. Okon
Ben Allen
Junsheng Liu, Wasim Q. Malik, David J. Edwards and Mohammad Ghavami
Ernest E. Okon
Xiaodong Chen
Zhi Ning Chen
Peter Massey
Dirk Manteuffel
Ernest E. Okon
Mohammad Ghavami and Kaveh Heidary
Mischa Dohler and Ben Allen
Domenico Porcino
Mischa Dohler, Junsheng Liu, R. Michael Buehrer, Swaroop Venkatesh and Ben Allen
Swaroop Venkatesh, R. Michael Buehrer, Junsheng Liu and Mischa Dohler
Yang Hao, Akram Alomainy and Yan Zhao
Wasim Q. Malik, Junsheng Liu, Ben Allen and David J. Edwards
Anthony K. Brown
Thomas Kaiser, Christiane Senger, Amr Eltaher and Bamrung Tau Sieskul
Ian Craddock
Ian Craddock
Anthony K. Brown
Subject Areas: Electronics & communications engineering [TJ]
