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In 1995, James D. Taylor's Introduction to Ultra-Wideband Radar Systems introduced engineers to the theory behind a promising new concept for remote sensing. Since then, the field has undergone enormous growth with new applications realized and more applications conceptualized at a remarkable pace. However, understanding ultra-wideband (UWB) radar requires a new philosophical approach. Concepts such as radar cross section will have new meanings as range resolution becomes smaller than the target.
Ultra-Wideband Radar Technology is a guide to the future of radar by an international team of experts. They present the problems, solutions, and examples of UWB radar remote sensing. Chapters discuss the theory and ideas for future systems development, and show the potential capabilities. The writers present concepts such as the differences between UWB and conventional radars, improving over-resolved target detection, receivers and waveforms, micropower systems, high power switching, and bistatic radar polarimetry.
Finding comparable information elsewhere might require consulting hundreds of other books, technical journals, and symposium proceedings. Ultra-Wideband Radar Technology offers a unique opportunity to explore the theory, applications, and technology of UWB radar within a single source.
This introductory reference covers the technology and concepts of ultra-wideband (UWB) radar systems. It provides up-to-date information for those who design, evaluate, analyze, or use UWB technology for any application. Since UWB technology is a developing field, the authors have stressed theory and hardware and have presented basic principles and concepts to help guide the design of UWB systems. Introduction to Ultra-Wideband Radar Systems is a comprehensive guide to the general features of UWB technology as well as a source for more detailed information.
This book presents the latest theory, developments, and
applications related to high resolution materials-penetrating
sensor systems. An international team of expert researchers
explains the problems and solutions for developing new techniques
and applications. Subject areas include ultrawideband (UWB) signals
propagation and scattering, materials-penetrating radar techniques
for small object detection and imaging, biolocation using
holographic techniques, tomography, medical applications,
nondestructive testing methods, electronic warfare principles,
through-the-wall radar propagation effects, and target
identification through measuring the target return signal spectrum
changes.
This book presents the latest theory, developments, and
applications related to high resolution materials-penetrating
sensor systems. An international team of expert researchers
explains the problems and solutions for developing new techniques
and applications. Subject areas include ultrawideband (UWB) signals
propagation and scattering, materials-penetrating radar techniques
for small object detection and imaging, biolocation using
holographic techniques, tomography, medical applications,
nondestructive testing methods, electronic warfare principles,
through-the-wall radar propagation effects, and target
identification through measuring the target return signal spectrum
changes.
Providing a practical review of the latest technology in the
field, " "Ultrawideband Radar Applications and Design presents
cutting-edge advances in theory, design, and practical applications
of ultrawideband (UWB) radar. This book features contributions from
an international team of experts to help readers learn about a wide
range of UWB topics, including:
- History of the technology
- American and European governmental regulations and key
definitions
- Nonsinusoidal wave propagation theory
- Random signal radar
- Object detection by ground permittivity measurements
- Large-target backscattering effects
- Medical applications
- Large current radiator antenna design
- Materials-penetrating theory
- Radar signal processing
- Weak-signal detection methods
- Holographic and real time radar imaging
This book s contributors use practical information to illustrate
the latest theoretical developments and demonstrate UWB radar
principles through case studies. Radar system engineers will find
ideas for precision electronic sensing systems for use in medical,
security, industrial, construction, and geophysical applications,
as well as those used in archeological, forensic and transportation
operations.
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