This book provides readers with a solid understanding of the capabilities and limitations of the techniques used for buried object detection. Presenting theory along with applications and the existing technology, it covers the most recent developments in hardware and software technologies of sensor systems with a focus on primary sensors such as Ground Penetrating Radar (GPR) and auxiliary sensors such as Nuclear Quadruple Resonance (NQR). It is essential reading for students, practitioners, specialists, and academicians involved in the design and implementation of buried object detection sensors.…mehr
This book provides readers with a solid understanding of the capabilities and limitations of the techniques used for buried object detection. Presenting theory along with applications and the existing technology, it covers the most recent developments in hardware and software technologies of sensor systems with a focus on primary sensors such as Ground Penetrating Radar (GPR) and auxiliary sensors such as Nuclear Quadruple Resonance (NQR). It is essential reading for students, practitioners, specialists, and academicians involved in the design and implementation of buried object detection sensors.
AHMET S. TURK, PhD, has been working on land mine detection systems as a ground-penetrating impulse radar RF system and antenna designer since 1998. Dr. Turk has over thirty technical publications in the areas of high frequency and microwave radars, RF communication devices, and ultra-wide band antennas. A. KOKSAL HOCAOGLU, PhD, has worked on image and signal analysis projects such as vehicle detection and recognition, detection of tripwires, acoustic signature analysis, and multi-sensor fusion for target recognition and tracking. He has been active in land mine detection algorithm research since 1998. Dr. Hocaoglu has over thirty technical publications in the areas of image and signal processing and pattern recognition. ALEXEY A. VERTIY, DSc., PhD, has been working on quasi-optical imaging, generating sub-THz Smith-Purcell radiation, super low-temperature millimeter wave spectroscopy for nuclear polarized targets, and subsurface microwave and sub-THz tomography systems for security, remote sensing, non-destructive testing, and medical applications. Dr. Vertiy has over one hundred sixty scientific publications in the areas of microwave and millimeter wave technologies, including coauthorship of two books.
Inhaltsangabe
Contributors xiii Preface xvii 1 Introduction 1 Relevant Resources 4 References 4 2 Sensor Types 7 2.1 Introduction 7 A. S. Turk 2.2 Ground-Penetrating Radar 8 A. S. Turk 2.3 Electromagnetic Induction Detector 19 A. S. Turk 2.4 Microwave Tomography Method 23 A. A. Vertiy 2.5 Acoustic and Seismic Sensor 29 A. K. Hocaoglu 2.6 Optical Detectors (Infrared and Hyperspectral) 36 A. K. Hocaoglu 2.7 Biochemical Sensors 37 M. Harbeck and Z. Z. Ozturk 2.8 Nuclear Sensors 44 A. N. Bilge References 48 3 Ground-Penetrating Radar 55 3.1 Introduction 55 A. S. Turk 3.2 GPR System Design 57 A. S. Turk 3.3 GPR Hardware 64 A. S. Turk, P. van Genderen, A. G. Yarovoy, and I. Nicolaescu 3.4 GPR Antennas 83 A. S. Turk 3.5 Signal-Processing Techniques 96 A. K. Hocaoglu 3.6 Imaging Algorithms 108 C. Ozdemir 3.7 Numerical Modeling of GPR 122 S. Aksoy, E. Basaran, and E. Ozturk 3.8 Detection and Classification Algorithms 146 A. K. Hocaoglu References 162 4 Electromagnetic Induction 175 H. Ewald 4.1 Introduction to Metal Detectors 175 4.2 Inductive Metal Detectors: Types of Probes, Excitation, and Coil Arrangements 179 4.3 Influence of the Soil Properties 196 4.4 Modeling Inductive Metal Detectors 202 4.5 Advanced Signal-Processing and Pattern Recognition Systems for Metal Detection 211 4.6 Conclusions 223 References 224 5 Microwave Tomography 227 5.1 Overview 227 A. A. Vertiy 5.2 Electromagnetic Tomography 228 F. Soldovieri and L. Crocco 5.3 Multifrequency Tomographic Method 255 A. A. Vertiy and S. Gavrilov 5.4 Diffraction Multiview Tomographic Method in the Microwave and Millimeter-Wave Bands 310 A. O. Salman, A. A. Vertiy, and S. Gavrilov 5.5 Nonlinear Inversion Algorithms 365 L. Crocco and F. Soldovieri References 377 6 Acoustic and Seismic Sensors 387 H. Asanuma 6.1 Overview 387 6.2 Operating Principles and Sensor Physics 389 6.3 Sensor Installation 400 6.4 Multicomponent Techniques 403 6.5 Limitations 408 6.6 Future Prospects 409 References 410 7 Auxiliary Sensors 413 7.1 Overview 413 A. N. Bilge 7.2 Biological and Chemical Methods of Explosive Detection 414 M. Harbeck and Z. Z. Ozturk 7.3 Nuclear Quadrupole Resonance 429 G. V. Mozzhukhin and B. Z. Rameev 7.4 X-ray, Gamma-ray, and Neutron Techniques 451 A. N. Bilge 7.5 Electric Impedance Tomography 460 A. S. Turk 7.6 Infrared and Hyperspectral Systems 465 J. E. McFee and S. Achal References 484 8 Multisensor Fusion 501 A. K. Hocaoglu 8.1 Preview 501 8.2 Data Association 503 8.3 Fusion Architectures 503 8.4 Probabilistic Sensor Fusion 505 8.5 Fuzzy Integrals for Information Fusion 513 8.6 Artificial Neural Networks 517 8.7 Summary 523 References 523 9 Geophysical Applications 525 9.1 Introduction 525 E. C. Slob 9.2 Electromagnetic Properties of Soils 526 E. C. Slob, S. Lambot, and E. Pettinelli 9.3 Hydrogeophysics 567 S. Lambot, E. Pettinelli, S. S. Hubbard, E. C. Slob, E. Bloem, and V. E. A. Post 9.4 Contaminant Remediation 600 S. S. Hubbard 9.5 Agricultural Geophysics 618 B. Allred, J. Butnor, D. L. Corwin, R. Eigenberg, H. Farahani, K. H. Johnsen, S. Lambot, D. McInnis, E. Pettinelli, L. Samuelson, and B. Woodbury 9.6 Archaeology and Cultural Heritage 644 E. Pettinelli, P. M. Barone, E. Mattei, A. Di Matteo, and F. Soldovieri References 667 10 Remote Sensing and Security 689 10.1 Introduction 689 A. A. Vertiy 10.2 Through-Wall Imaging and Detection 690 A. A. Vertiy and S. Gavrilov 10.3 Millimeter-WaveBand Passive Imaging 721 A. Denisov and A. A. Vertiy References 740 11 Mine Detection 743 11.1 The Landmine Problem 743 A. G. Yarovoy 11.2 Overview of Demining Techniques 745 A. G. Yarovoy 11.3 Advanced Electromagnetic Induction Sensor 747 A. G. Yarovoy and H. Ewald 11.4 Ground-Penetrating Radar 750 A. G. Yarovoy 11.5 Electrooptical Sensors 753 A. G. Yarovoy 11.6 Chemical Sensor Arrays for Mine Detection 755 Z. Z. Ozturk and M. Harbeck 11.7 Sensor Fusion 757 A. G. Yarovoy 11.8 ALIS: A Handheld Multisensor System for Landmine Detection 758 M. Sato 11.9 Conclusions 769 References 769 12 Transportation and Civil Engineering 773 12.1 Introduction 773 E. Proverbio 12.2 Proper Sensor Types 785 E. Proverbio 12.3 Ground-Penetrating Radar for Road Characterization 795 A. S. Turk and F. Soldovieri 12.4 Eddy Current Tomography for Three-Dimensional Imaging in Conductive Materials 818 A. A. Vertiy 12.5 Ultrasonic Methods for Nondestructive Testing 824 D. Cleland 12.6 Impact Echo 836 E. Proverbio 12.7 Diagnostic Methods for Concrete and Bridges by Acoustic Emission 844 J. Stryk and K. Pospisil 12.8 Vibroacoustic Monitoring of Concrete Structures 860 S. Radkowski 12.9 Application of Nuclear Techniques for Civil Engineering 872 A. N. Bilge References 877 Index 885
Contributors xiii Preface xvii 1 Introduction 1 Relevant Resources 4 References 4 2 Sensor Types 7 2.1 Introduction 7 A. S. Turk 2.2 Ground-Penetrating Radar 8 A. S. Turk 2.3 Electromagnetic Induction Detector 19 A. S. Turk 2.4 Microwave Tomography Method 23 A. A. Vertiy 2.5 Acoustic and Seismic Sensor 29 A. K. Hocaoglu 2.6 Optical Detectors (Infrared and Hyperspectral) 36 A. K. Hocaoglu 2.7 Biochemical Sensors 37 M. Harbeck and Z. Z. Ozturk 2.8 Nuclear Sensors 44 A. N. Bilge References 48 3 Ground-Penetrating Radar 55 3.1 Introduction 55 A. S. Turk 3.2 GPR System Design 57 A. S. Turk 3.3 GPR Hardware 64 A. S. Turk, P. van Genderen, A. G. Yarovoy, and I. Nicolaescu 3.4 GPR Antennas 83 A. S. Turk 3.5 Signal-Processing Techniques 96 A. K. Hocaoglu 3.6 Imaging Algorithms 108 C. Ozdemir 3.7 Numerical Modeling of GPR 122 S. Aksoy, E. Basaran, and E. Ozturk 3.8 Detection and Classification Algorithms 146 A. K. Hocaoglu References 162 4 Electromagnetic Induction 175 H. Ewald 4.1 Introduction to Metal Detectors 175 4.2 Inductive Metal Detectors: Types of Probes, Excitation, and Coil Arrangements 179 4.3 Influence of the Soil Properties 196 4.4 Modeling Inductive Metal Detectors 202 4.5 Advanced Signal-Processing and Pattern Recognition Systems for Metal Detection 211 4.6 Conclusions 223 References 224 5 Microwave Tomography 227 5.1 Overview 227 A. A. Vertiy 5.2 Electromagnetic Tomography 228 F. Soldovieri and L. Crocco 5.3 Multifrequency Tomographic Method 255 A. A. Vertiy and S. Gavrilov 5.4 Diffraction Multiview Tomographic Method in the Microwave and Millimeter-Wave Bands 310 A. O. Salman, A. A. Vertiy, and S. Gavrilov 5.5 Nonlinear Inversion Algorithms 365 L. Crocco and F. Soldovieri References 377 6 Acoustic and Seismic Sensors 387 H. Asanuma 6.1 Overview 387 6.2 Operating Principles and Sensor Physics 389 6.3 Sensor Installation 400 6.4 Multicomponent Techniques 403 6.5 Limitations 408 6.6 Future Prospects 409 References 410 7 Auxiliary Sensors 413 7.1 Overview 413 A. N. Bilge 7.2 Biological and Chemical Methods of Explosive Detection 414 M. Harbeck and Z. Z. Ozturk 7.3 Nuclear Quadrupole Resonance 429 G. V. Mozzhukhin and B. Z. Rameev 7.4 X-ray, Gamma-ray, and Neutron Techniques 451 A. N. Bilge 7.5 Electric Impedance Tomography 460 A. S. Turk 7.6 Infrared and Hyperspectral Systems 465 J. E. McFee and S. Achal References 484 8 Multisensor Fusion 501 A. K. Hocaoglu 8.1 Preview 501 8.2 Data Association 503 8.3 Fusion Architectures 503 8.4 Probabilistic Sensor Fusion 505 8.5 Fuzzy Integrals for Information Fusion 513 8.6 Artificial Neural Networks 517 8.7 Summary 523 References 523 9 Geophysical Applications 525 9.1 Introduction 525 E. C. Slob 9.2 Electromagnetic Properties of Soils 526 E. C. Slob, S. Lambot, and E. Pettinelli 9.3 Hydrogeophysics 567 S. Lambot, E. Pettinelli, S. S. Hubbard, E. C. Slob, E. Bloem, and V. E. A. Post 9.4 Contaminant Remediation 600 S. S. Hubbard 9.5 Agricultural Geophysics 618 B. Allred, J. Butnor, D. L. Corwin, R. Eigenberg, H. Farahani, K. H. Johnsen, S. Lambot, D. McInnis, E. Pettinelli, L. Samuelson, and B. Woodbury 9.6 Archaeology and Cultural Heritage 644 E. Pettinelli, P. M. Barone, E. Mattei, A. Di Matteo, and F. Soldovieri References 667 10 Remote Sensing and Security 689 10.1 Introduction 689 A. A. Vertiy 10.2 Through-Wall Imaging and Detection 690 A. A. Vertiy and S. Gavrilov 10.3 Millimeter-WaveBand Passive Imaging 721 A. Denisov and A. A. Vertiy References 740 11 Mine Detection 743 11.1 The Landmine Problem 743 A. G. Yarovoy 11.2 Overview of Demining Techniques 745 A. G. Yarovoy 11.3 Advanced Electromagnetic Induction Sensor 747 A. G. Yarovoy and H. Ewald 11.4 Ground-Penetrating Radar 750 A. G. Yarovoy 11.5 Electrooptical Sensors 753 A. G. Yarovoy 11.6 Chemical Sensor Arrays for Mine Detection 755 Z. Z. Ozturk and M. Harbeck 11.7 Sensor Fusion 757 A. G. Yarovoy 11.8 ALIS: A Handheld Multisensor System for Landmine Detection 758 M. Sato 11.9 Conclusions 769 References 769 12 Transportation and Civil Engineering 773 12.1 Introduction 773 E. Proverbio 12.2 Proper Sensor Types 785 E. Proverbio 12.3 Ground-Penetrating Radar for Road Characterization 795 A. S. Turk and F. Soldovieri 12.4 Eddy Current Tomography for Three-Dimensional Imaging in Conductive Materials 818 A. A. Vertiy 12.5 Ultrasonic Methods for Nondestructive Testing 824 D. Cleland 12.6 Impact Echo 836 E. Proverbio 12.7 Diagnostic Methods for Concrete and Bridges by Acoustic Emission 844 J. Stryk and K. Pospisil 12.8 Vibroacoustic Monitoring of Concrete Structures 860 S. Radkowski 12.9 Application of Nuclear Techniques for Civil Engineering 872 A. N. Bilge References 877 Index 885
Rezensionen
"I highly recommend the essential and definitive book Subsurface Sensing edited by Subsurface Sensing, to any students, engineers, practitioners, business leaders, and policy makers seeking a complete overview of the theory, technology, and applications of the critical field of subsurface sensing. This book is a must for anyone with an interest or need for subsurface detection in any area of engineering, resources, business, or scientific research." (Blog Business World, 18 December 2011)
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