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EM Detection of Concealed Targets [Other digital carrier]

  • Formāts: Other digital carrier, 304 pages
  • Izdošanas datums: 04-Dec-2009
  • Izdevniecība: Wiley-Blackwell
  • ISBN-10: 0470539852
  • ISBN-13: 9780470539859
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EM Detection of Concealed Targets
  • Formāts: Other digital carrier, 304 pages
  • Izdošanas datums: 04-Dec-2009
  • Izdevniecība: Wiley-Blackwell
  • ISBN-10: 0470539852
  • ISBN-13: 9780470539859
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780470539859.html
Keywords:
The latest EM techniques for detecting concealed targets, whether explosives, weapons, or people

Extensively illustrated from basic principles to system design, the fundamental concepts of RF, microwave, millimeter wave, and terahertz detection systems and techniques to find concealed targets are explained in this publication. These concealed targets may be explosive devices or weapons, which can be buried in the ground, concealed in building structures, hidden under clothing, or inside luggage. Concealed targets may also be people who are stowaways or victims of an avalanche or earthquake.

Although much information is available in conference proceedings and professional society publications, this book brings all the relevant information in a single, expertly written and organized volume.

Readers gain an understanding of the physics underlying electromagnetic (EM) detection methods, as well as the factors that affect the performance of EM detection equipment, helping them choose the right type of equipment and techniques to meet the demands of particular tasks. Among the topics covered are:

  • Ultra-wideband radar and ground-penetrating radar

  • Millimeter, sub-millimeter, and terahertz systems

  • Radar systems including Doppler, harmonic, impulse, FMCW, and holographic

  • Radiometric systems

  • Nuclear quadrupole resonance systems

Author David Daniels has many years of experience designing and deploying EM systems to detect concealed targets. As a result, this publication is essential for scientists and engineers who are developing or using EM equipment and techniques for a diverse range of purposes, including homeland security, crime prevention, or the detection of persons.

THE LATEST EM TECHNIQUES
FOR DETECTING CONCEALED TARGETS, WHETHER EXPLOSIVES, WEAPONS, OR PEOPLE

Extensively illustrated from basic principles to system design, the fundamental concepts of RF, microwave, millimeter wave, and terahertz detection systems and techniques to find concealed targets are explained in this publication. These concealed targets may be explosive devices or weapons, which can be buried in the ground, concealed in building structures, hidden under clothing, or inside luggage. Concealed targets may also be people who are stowaways or victims of an avalanche or earthquake.

Although much information is available in conference proceedings and professional society publications, this book brings all the relevant information in a single, expertly written and organized volume.

Readers gain an understanding of the physics underlying electromagnetic (EM) detection methods, as well as the factors that affect the performance of EM detection equipment, helping them choose the right type of equipment and techniques to meet the demands of particular tasks. Among the topics covered are:

  • Ultra-wideband radar and ground-penetrating radar
  • Millimeter, sub-millimeter, and terahertz systems
  • Radar systems including Doppler, harmonic, impulse, FMCW, and holographic
  • Radiometric systems
  • Nuclear quadrupole resonance systems

Author David Daniels has many years of experience designing and deploying EM systems to detect concealed targets. As a result, this publication is essential for scientists and engineers who are developing or using EM equipment and techniques for a diverse range of purposes, including homeland security, crime prevention, or the detection of persons.

Preface. Acknowledgments. List of Frequently used Acronyms. 1
Introduction. 1.1 Scope and Objectives. 1.2 Structure. 1.3 Market Needs for
Security. 1.4 Targets inside Containers. 1.5 Buried Land Mines. 1.6 Forensic
Detection of Buried Bodies. 1.7 Avalanche and Earthquake Victims. 1.8
Concealed Humans. 1.9 Concealed Targets on Humans. 1.10 Radiological
Considerations. 1.11 Licensing Considerations. 1.12 Statistics of the
Detection Performance of a Sensor. 1.13 Summary. 2 Physics of Propagation.
2.1 Introduction. 2.2 Propagation of Electromagnetic Fields in Free Space.
2.2.1 Reactive Fields. 2.2.2 Near Fields. 2.2.3 Far Fields. 2.2.4
Polarization. 2.2.5 Radar Cross Section. 2.2.6 Reflection. 2.2.7 Refraction.
2.2.8 Brewster Angle. 2.2.9 Dispersion. 2.2.10 Anisotropy. 2.2.11 Clutter.
2.3 Propagation of Energy in a Dielectric. 2.3.1 Introduction. 2.3.2 Velocity
in a Dielectric. 2.3.3 Impedance of a Dielectric. 2.3.4 Propagation Loss in a
Dielectric. 2.3.5 Coupling Losses into Materials. 2.4 Dielectric Properties
of Soils and Rocks. 2.5 Propagation in Water. 2.6 Atmospheric Absorption of
Electromagnetic Waves. 2.6.1 Rain and Fog. 2.6.2 Dust, Smoke, and Sand
Storms. 2.7 Attenuation of Electromagnetic Fields by Materials. 2.7.1 Human
and Animal. 2.7.2 Heartbeat. 2.7.3 Respiration. 2.7.4 Clothing. 2.7.5
Construction Materials. 2.7.6 Explosives. 2.8 Summary. 3 Antennas. 3.1
Introduction. 3.2 Antenna Parameters. 3.2.1 Antenna Directivity. 3.2.2
Antenna Gain. 3.2.3 Antenna Efficiency. 3.2.4 Side Lobes and Back Lobes.
3.2.5 Bandwidth. 3.2.6 Polarization-Linear, Elliptical, and Circular. 3.2.7
Antenna Phase Center. 3.2.8 Antenna Patterns. 3.2.9 Time Side Lobes and
Ring-down. 3.2.10 Antenna Footprint. 3.3 Aperture Antennas. 3.4 Antennas for
Proximal Operation. 3.4.1 Introduction. 3.4.2 Coupling Energy into the Ground
or a Dielectric. 3.5 Linear Phase Antennas. 3.5.1 Dipoles. 3.5.2 Loaded
Antennas. 3.5.3 BiConical Antennas. 3.5.4 Bow-Tie Antennas. 3.5.5 Dielectric
Road Antennas. 3.5.6 TEM Horn Antennas. 3.5.7 Impulse Radiating Antennas. 3.6
Nonlinear Phase Antennas. 3.6.1 Vivaldi Antennas. 3.6.2 Equiangular Antennas.
3.6.3 Horn Antennas. 3.7 Antenna Arrays. 3.8 Summary. 4 Nuclear Quadrupole
Resonance. 4.1 Introduction. 4.2 Pulse Sequences. 4.3 System Design. 4.3.1
Introduction. 4.3.2 Transmit-and-Receive Coils. 4.3.3 Receiver and Coil
Considerations. 4.4 Signal Processing. 4.5 Detection of Explosives. 4.6
Land-Mine Detection. 4.7 Illicit Drugs. 4.7.1 Cocaine. 4.7.2 Cocaine
Hydrochloride. 4.7.3 Heroin (Diamorphine). 4.8 Summary. 5 Radar Systems.
5.1 Introduction. 5.2 Doppler Radar Systems. 5.3 Frequency-Domain Radars.
5.3.1 Introduction. 5.3.2 Two-Frequency Doppler Radar. 5.3.3 Stepped
Frequency Radar Systems. 5.3.4 Frequency-Modulated Continuous-Wave Radar. 5.4
Harmonic Radar. 5.5 Noise Radar. 5.6 Spatial Modulation. 5.7 Amplitude
Modulation. 5.8 Summary. 6 Passive Systems. 6.1 Introduction. 6.2
Principles of Radiometry. 6.3 Total Power Radiometer. 6.4 Dicke Radiometer.
6.5 Minimum Detectable Temperature. 6.6 Temperature Resolution. 6.7 Imaging
Systems. 6.8 Summary. 7 Applications and Technology. 7.1 Introduction. 7.2
Physiological Monitoring. 7.3 Earthquake and Avalanche Radar Systems. 7.4
Forensic Applications. 7.5 Through-Wall Radar (TWR) for Surveillance. 7.6
Harmonic Radar Systems. 7.7 Land-Mine Detection Radar Systems. 7.7.1 Handheld
Land-Mine Detection Radar Systems. 7.7.2 Vehicle-Mounted Land-Mine Detection
Radar Systems. 7.8 Radar for General Search Operations. 7.9 Spatially
Modulated Systems. 7.10 Millimeter-Wave Radar Systems. 7.11 Summary. 8
Summary. References. Index.
David J. Daniels, BSc, MSc, CEng, FIET, SMIEE , is the Chief Consultant for Sensors at Cobham Technical Services (formerly known as ERA Technology). David has more than thirty years of experience in the development of radar, acoustic, and electromagnetic systems as well as products for security, sensing, and test applications for the military and commercial enterprises. He has brought such products to market as acoustic detection systems, fiber optic cryogenic liquid leak sensors, marine radar rescue transponders, ultra-wideband microwave amplifiers, ground-penetrating radar, land-mine detectors, and RF and microwave security systems. His current interests center on sensor systems for land-mine detection, homeland security, and military counterterrorist activities.