This new handbook on radar signal analysis adopted a deliberate and systematic approach. It uses a clear and consistent level of delivery while maintaining strong and easy to follow mathematical details. The emphasis of this book is on radar signal types and their relevant signal processing and not on radar systems hardware or components. This handbook serves as a valuable reference to a wide range of audience. More specifically, college level students, practicing radar engineers, as well as casual readers of the subject are the intended target audience of the first few chapters of this book. As the book chapters progress, these grow in complexity and specificity. Accordingly, later chapters are intended for practicing engineers, graduate college students, and advanced readers. Finally, the last few chapters contain several special topics on radar systems that are both educational and scientifically entertaining to all readers.

The presentation of topics in this handbook takes the reader on a scientific journey whose major landmarks comprise the different radar sub-systems and components. In this context, the chapters of this book follow the radar signal along this journey from its birth to the end of its life. Along the way, the different relevant radar subsystems are analyzed and discussed in great level of details. The chapter-contributors of this new handbook comprise well-seasoned academia members and practicing radar engineers. Their combined years of academic and real-world experiences are well in excess of 175 years. They together bring a unique easy to follow mix of mathematical and practical presentations of the topics discussed in this book. See "Chapter Contributors" section of this book to learn more about these individuals. TABLE OF CONTENTS 1.

Signal and Systems - a Refresher, Bassem Mahafza 2. Radar Systems Basics, Bassem Mahafza 3. The Radar Equation, Bassem Mahafza 4. Radar Propagation Medium, Bassem Mahafza 5. Radar Electronic Warfare Techniques, Bassem Mahafza and Robert Balla 6. The Matched Filter Receiver, Bassem Mahafza 7. The Radar Ambiguity Function, Bassem Mahafza 8. Target Detection, Bassem Mahafza Part I - Single Pulse Detection Part II - Detection of Fluctuating Targets 9.

Radar Signal Processing in Clutter, Scott Winton 10. Radar Tracking, Scott Winton 11. Canonical and Finite Difference Time Domain Methods for RCS Computations, Atef Elsherbeni 12. Integral and Physical Optics Methods for RCS Computation, Walton Gibson 13. Antennas for Radar Applications, Atef Elsherbeni 14. Synthetic Aperture Radar (SAR), Brian Smith 15. Wideband Radar Applications, Mark Barnes 16. Modern Digital Array Antennas for Radar Applications, Kenny Shrider Chapters Contributors Bibliography Index Biographies Bassem R.

Mahafza is the President and founder of Phased n Research. Dr. Mahafza is a recognized as a radar subject matter expert and is widely known for authoring several leading reference and textbooks on Radar Systems. Dr. Mahafza has been a member of the IEEE (Institute of Electric and Electronic Engineers) since 1984, he has been awarded a Senior IEEE member in 1994 and have been recently nominated for an IEEE Fellow. Dr. Mahafza's 30+ years' experience includes extensive work in radar technology, radar design and analysis (including all sensor subcomponents), radar simulation and model design, radar signatures and radar algorithm development. Through his industry career, he has supported numerous Government organizations.

Dr. Mahafza's academic experience include developing and teaching several graduate and undergraduate level courses, such as, random signal and noise, introduction to radar systems, advanced radar techniques, advanced signal processing. He supervised many Master student and several PhD candidates. During his academic tenure, his research was mainly focused on advancements in radar and sensor technology. Furthermore, Dr. Mahafza has conducted detailed research in Phased Array Radars, advanced Radar Signal Processing, Electronic Countermeasures and Counter Countermeasure techniques. Scott C. Winton is a Senior Principal Sensors Engineer with the MITRE Corporation with over 30 years of technical experience in computational electromagnetics, electromagnetic compatibility, and radar systems.

He currently leads a team of engineers supporting the Ground Sensors Directorate of the Missile Defense Agency at Redstone Arsenal. Dr. Winton received his PhD from Northeastern University. During his academic tenure, Dr. Winton's research encompassed ground penetrating radar and electromagnetic propagation in inhomogeneous and turbid media. Throughout his career, Scott has supported numerous DOD service components and agencies by developing, testing, and integrating electromagnetic systems. He also has considerable experience in high powered microwave (HPM), electronic warfare, and wireless communications. Dr.

Winton has published numerous papers in several technical journals and has served as a reviewer for IEEE Antennas and Propagation Society. Atef Z. Elsherbeni earned a Ph.D. degree in Electrical Engineering from Manitoba University, Winnipeg, Manitoba, Canada, in 1987. He started his engineering career as a part time Software and System Design Engineer at Automated Data System Center, Cairo, Egypt. Dr. Elsherbeni has been Professor at University of Mississippi and became the Associate Dean for Research and Graduate Programs there, Dobelman Distinguished Professor and Interim Department Head of the EECS Department at Colorado School of Mines and the EE Department Head.

He was selected as Finland Distinguished Professor by the Academy of.