Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.The most complete, current guide to the signal processing techniques essential to advanced radar systemsFully updated and expanded, Fundamentals of Radar Signal Processing, Second Edition, offerscomprehensive coverage of the basic digital signal processing techniques and technologies on which virtually all modern radar systems rely, including target and interference models, matched filtering, waveform design, Doppler processing, threshold detection, and measurement accuracy.
The methods and interpretations of linear systems, filtering, sampling, and Fourier analysis are used throughout to provide a unified tutorial approach. End-of-chapter problems reinforce the material covered. Developed over many years of academic and professional education, this authoritative resource is ideal for graduate students as well as practicing engineers.
Fundamentals of Radar Signal Processing, Second Edition, covers:
Introduction to radar systems
Pulsed radar data acquisition
Measurements and tracking
Introduction to synthetic aperture imaging
Introduction to beamforming and space-time adaptive processing
Mark A. Richards, Ph.D. is a Principal Research Engineer and Adjunct Professor at the Georgia Institute of Technology. He is an Associate Editor of the IEEE Transactions on Image Processing and a past Associate Editor of the IEEE Transactions on Signal Processing. He served as General Chair of the IEEE 2001 Radar Conference. Dr. Richards teaches Fundamentals of Radar Signal Processing at the fourth year and graduate level, and Radar Signal Processing as a GIT professional short course.
Ch. 1. Introduction to Radar Systems Ch. 2. Signal Models Ch. 3. Sampling and Quantization of Pulsed Radar Signals Ch. 4. Radar Waveforms Ch. 5. Doppler Processing Ch. 6. Detection Fundamentals Ch. 7. Constant False Alarm Rate (CFAR) Detection Ch. 8. Synthetic Aperture Imaging Ch. 9. Beamforming and Space-Time Adaptive Processing Ch. 10. Measurement Accuracy and Target Tracking (new)