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Antennas and Propagation for Wireless Communication Systems - Simon R. Saunders, Alejandro A. Aragón-Zavala

Antennas and Propagation for Wireless Communication Systems

Buch | Hardcover
752 Seiten
2024 | 3rd edition
John Wiley & Sons Inc (Verlag)
978-1-394-22304-6 (ISBN)
CHF 169,25 inkl. MwSt
Comprehensive resource describing both fundamentals and practical industry applications of antennas and radio propagation employed in modern wireless communication systems

The newly revised and thoroughly updated Third Edition of this classic and popular text, Antennas and Propagation for Wireless Communication Systems addresses fundamentals and practical applications of antennas and radio propagation commonly used in modern wireless communication systems, from the basic electromagnetic principles to the characteristics of the technology employed in the most recent systems deployed, with an outlook of forthcoming developments in the field.

Core topics include fundamental electromagnetic principles underlying propagation and antennas, basic concepts of antennas and their application to specific wireless systems, propagation measurement, modelling, and prediction for fixed links, macrocells, microcells, femtocells, picocells, megacells, and narrowband and wideband channel modelling with the effect of the channel on communication system performance.

Worked examples and specific assignments for students are presented throughout the text (with a solutions manual available for course tutors), with a dedicated website containing online calculators and additional resources, plus details of simple measurements that students can perform with off-the-shelf equipment, such as their laptops and a Wi-Fi card.

This Third Edition of Antennas and Propagation for Wireless Communication Systems has been thoroughly revised and updated, expanding on and adding brand new coverage of sample topics such as:



Maxwell’s equations and EM theory, multiple reflections as propagation mechanisms, and waveguiding
HAPS (High Altitude Platforms) propagation, design and noise considerations of earth stations, macrocell models, and cellular base station site engineering
FSS (frequency selective surfaces), adaptive antenna theory developments (massive and distributed MIMO in particular), and how to process raw data related to channel measurements for mobile radio systems
The techniques used in mobile systems spanning the latest 4G, 5G and 6G technology generations
A wider range of frequencies, extending from HF, VHF and UHF up to the latest millimetre wave and sub terahertz bands

With comprehensive coverage of foundational subject matter as well as major recent advancements in the field, Antennas and Propagation for Wireless Communication Systems is an essential resource for undergraduate and postgraduate students, researchers, and industry engineers in related disciplines.

Professor Simon R. Saunders is an independent communication systems advisor with extensive background from industry (including Google, Motorola, Philips, Small Cell Forum), academia (University of Surrey, University of Bristol) and policy & regulation (Ofcom, UK Government). He has written over 150 articles, books and book chapters, invented over 15 patented wireless technologies and served on technical advisory boards of several companies and universities. Dr. Alejandro Aragón-Zavala is an Associate Research Professor (Tecnológico de Monterrey, Querétaro, Mexico), an Associate Consultant and Wireless Expert (Real Wireless UK, iBwave Canada). He is the author of over 60 research papers, three printed books, three e-books and several book chapters. His research areas include wireless communications, indoor radio propagation and high-altitude platforms.

Preface xxiii

About the Companion Website xxvii

1 Introduction: The Wireless Communication Channel 1

1.1 Introduction 1

1.2 Concept of a Wireless Channel 1

1.3 The Electromagnetic Spectrum 5

1.4 Spectrum Management and Regulation 6

1.5 History 7

1.6 System Types 7

1.7 Aims of Cellular Systems 12

1.8 An Overview of Wireless Technologies 13

1.9 Multiple Access Schemes and Duplexing 32

1.10 The Mobile Broadband Revolution 35

1.11 Structure of This Book 37

1.12 Conclusion 38

2 Properties of Electromagnetic Waves 41

2.1 Introduction 41

2.2 Maxwell's Equations 41

2.3 Summary of Maxwell's Equations 44

2.4 The Wave Equation 44

2.5 Plane Wave Properties 45

2.6 Polarisation 50

2.7 Conclusion 52

3 Propagation Mechanisms 55

3.1 Introduction 55

3.2 Reflection, Refraction and Transmission 55

3.3 Rough Surface Scattering 63

3.4 Geometrical Optics 66

3.5 Diffraction 68

3.6 Conclusion 76

4 Antenna Fundamentals 79

4.1 Introduction 79

4.2 Principles 79

4.3 Antenna Parameters 83

4.4 Practical Dipoles 91

4.5 Antenna Arrays 95

4.6 Horn Antennas 99

4.7 Loop Antennas 100

4.8 Helical Antennas 101

4.9 Patch Antennas 101

4.10 Lens Antennas 102

4.11 Conclusion 104

5 Basic Propagation Models 109

5.1 Introduction 109

5.2 Definition of Path Loss 109

5.3 A Brief Note on Decibels 112

5.4 Noise Modelling 112

5.5 Free Space Loss 116

5.6 Plane Earth Loss 118

5.7 Link Budgets 120

5.8 Conclusion 122

6 Terrestrial Fixed Links 125

6.1 Introduction 125

6.2 Path Profiles 125

6.3 Tropospheric Refraction 128

6.4 Obstruction Loss 133

6.5 Approximate Multiple Knife-Edge Diffraction 135

6.6 The Multiple-Edge Diffraction Integral 140

6.7 Diffraction Over Objects of Finite Size 147

6.8 Other Methods for Predicting Terrain Diffraction 148

6.9 Propagation in Vegetation 153

6.10 Propagation in Tropical Environments 159

6.11 Antennas for Fixed Terrestrial Links 164

6.12 Conclusion 165

7 Satellite Fixed Links and High Altitude Platforms 171

7.1 Introduction 171

7.2 Tropospheric Effects 172

7.3 Ionospheric Effects 187

7.4 Satellite Earth Stations 191

7.5 High-altitude Platforms (HAPS) 195

7.6 Conclusion 201

8 Wide Area Coverage: Macrocells and Broadcasting 205

8.1 Introduction 205

8.2 Definition of Parameters 206

8.3 Empirical Path Loss Models 206

8.4 Physical Models 217

8.5 ITU-R Models 226

8.6 Hybrid Models -- Measurement-based Prediction (MbP) 228

8.7 Comparison of Models 230

8.8 Computerised Planning Tools 231

8.9 Cellular Base Station Site Engineering 231

8.10 Broadcasting Systems 242

8.11 Conclusion 246

9 Shadowing 251

9.1 Introduction 251

9.2 Statistical Characterisation 251

9.3 Physical Basis for Shadowing 252

9.4 Impact on Coverage 253

9.5 Location Variability 258

9.6 Correlated Shadowing 260

9.7 Conclusion 268

10 Narrowband Fast Fading 273

10.1 Introduction 273

10.2 Baseband Channel Representation 273

10.3 The AWGN Channel 274

10.4 The Narrowband Fading Channel 277

10.5 When Does Fading Occur in Practice? 278

10.6 The Rayleigh Distribution 279

10.7 Distribution of the SNR for a Rayleigh Channel 282

10.8 The Rice Distribution 285

10.9 The Nakagami-m Distribution 289

10.10 Other Fast-Fading Distributions 290

10.11 Second-Order Fast-Fading Statistics 292

10.12 Autocorrelation Function 299

10.13 Narrowband Mobile Radio Channel Simulations 302

10.14 Conclusion 302

11 Wideband Fast Fading 305

11.1 Introduction 305

11.2 Effect of Wideband Fading 306

11.3 Wideband Channel Model 309

11.4 Wideband Channel Parameters 310

11.5 Frequency Domain Effects 315

11.6 The Bello Functions 316

11.7 Wideband Fading in Fixed Links 317

11.8 Overcoming Wideband Channel Impairments 318

11.9 Conclusion 318

12 Microcells 321

12.1 Introduction 321

12.2 Empirical Models 322

12.3 Physical Models 332

12.4 Line-of-Sight Models 333

12.5 Non-Line-of-Sight Models 340

12.6 Discussion 346

12.7 Microcell Shadowing 346

12.8 Narrowband Fading 348

12.9 Wideband Effects 348

12.10 Conclusion 349

13 Picocells 353

13.1 Introduction 353

13.2 Empirical Models of Propagation Within Buildings 353

13.3 Physical Models of Indoor Propagation Within Buildings 365

13.4 Models of Propagation Into Buildings 372

13.5 Indoor-to-Outdoor (I2O) Propagation (Leakage) Models 381

13.6 Constitutive Parameters of Building Materials for Physical Models 383

13.7 Shadowing 384

13.8 Multipath Effects 384

13.9 Ultra-Wideband Indoor Propagation 387

13.10 Distribution Systems for Indoor and Enclosed Space Applications 388

13.11 Indoor Link Budgets 400

13.12 Conclusion 405

14 Propagation for Short-Range and Enclosed Space Applications 411

14.1 Introduction 411

14.2 Propagation in Tunnels 411

14.3 Wireless Communications for Trains 417

14.4 Propagation in Underground Mines 426

14.5 Propagation in Corridors 428

14.6 Propagation Within Lift Shafts 431

14.7 Vehicle-to-Vehicle (V2V) Communications 433

14.8 Conclusion 435

15 Megacells -- Non-terrestrial Networks 439

15.1 Introduction 439

15.2 Non-Terrestrial Mobile Networks 441

15.3 Shadowing and Fast Fading 443

15.4 Empirical Narrowband Models 445

15.5 Statistical Models 448

15.6 Shadowing Statistics 455

15.7 Physical-Statistical Models for Built-Up Areas 455

15.8 Wideband Models 463

15.9 Multi-Satellite Correlations 464

15.10 Overall Mobile Satellite Channel Model 465

15.11 Conclusion 466

16 Antenna Applications 471

16.1 Introduction 471

16.2 Mobile Terminal Antennas 471

16.3 Base Station Antennas 487

16.4 Antennas for Other Wireless Systems 499

16.5 Conclusion 507

17 Channel Measurements for Mobile Systems 513

17.1 Introduction 513

17.2 Applications for Channel Measurements 513

17.3 Impact of Measurement Inaccuracies 516

17.4 Signal Sampling Issues 517

17.5 Measurement Systems 523

17.6 Equipment Calibration and Validation 525

17.7 Outdoor Measurements 528

17.8 Indoor Measurements 533

17.9 Practical Experiment: Wi-Fi Measurements 538

17.10 Conclusion 540

18 Overcoming Narrowband Fading via Diversity 543

18.1 Introduction 543

18.2 Criteria for Useful Branches 545

18.3 Space Diversity 545

18.4 Polarisation Diversity 551

18.5 Time Diversity 554

18.6 Frequency Diversity 554

18.7 Combining Methods 555

18.8 Diversity for Microwave Links 562

18.9 Macrodiversity 562

18.10 Transmit Diversity 562

18.11 Conclusion 563

19 Overcoming Wideband Fading 565

19.1 Introduction 565

19.2 System Modelling 566

19.3 Linear Equalisers 568

19.4 Adaptive Equalisers 571

19.5 Non-Linear Equalisers 574

19.6 Rake Receivers 579

19.7 OFDM Receivers 582

19.8 Delay-Doppler Modulation: OTFS 586

19.9 Conclusion 588

20 Adaptive Antennas 591

20.1 Introduction 591

20.2 Basic Concepts 592

20.3 Adaptive Antenna Applications 593

20.4 Optimum Combining 598

20.5 Multiple-Input Multiple-Output Systems 605

20.6 Massive MIMO 614

20.7 MIMO Channel Modelling and Antennas 617

20.8 Summary of Adaptive Antenna Techniques 626

20.9 Conclusion 627

21 5G Mobile Networks 631

21.1 Introduction 631

21.2 5G Drivers and Standards Development 632

21.3 5G Frequency Bands 635

21.4 5G Air Interface Overview 638

21.5 MIMO in 5G 642

21.6 5G Mobile Propagation 648

21.7 5G Performance 657

21.8 5G Cell Planning 659

21.9 Conclusion 660

22 Future Antennas and Propagation: 6G and Beyond 663

22.1 Introduction 663

22.2 Beyond Shannon? 663

22.3 Expected Attributes and Candidate Technologies for 6G 664

22.4 Sensing 666

22.5 (Sub) Terahertz Mobile Propagation 667

22.6 Cell-Free Networks and Distributed MIMO 671

22.7 Full Duplex 672

22.8 Metamaterials and Reconfigurable Intelligent Surfaces 673

22.9 Machine Learning (ML) in Mobile Networks 674

22.10 Conclusion 680

References 681

Problems 682

Appendix A Statistics, Probability and Stochastic Processes 683

A.1 Introduction 683

A.2 Single Random Variables 683

A.3 Multiple Random Variables 684

A.4 Gaussian Distribution and Central Limit Theorem 684

A.5 Random Processes 685

Appendix B Tables and Data 687

B.1 Normal (Gaussian) Distribution 687

B.2 Error Function 687

B.3 Fresnel Integrals 690

B.4 Gamma Function 691

B.5 Bessel Function 692

Reference 693

Abbreviations 695

Index 701

Erscheinungsdatum
Verlagsort New York
Sprache englisch
Maße 177 x 247 mm
Gewicht 1446 g
Themenwelt Technik Elektrotechnik / Energietechnik
Technik Nachrichtentechnik
ISBN-10 1-394-22304-8 / 1394223048
ISBN-13 978-1-394-22304-6 / 9781394223046
Zustand Neuware
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