Radar Systems Analysis and Design Using MATLAB 3rd Edition by Bassem Mahafza ISBN 1439884951 978-1439884959
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Product details:
ISBN 10: 1439884951
ISBN 13: 978-1439884959
Author: Bassem R. Mahafza
Developed from the author’s graduate-level courses, the first edition of this book filled the need for a comprehensive, self-contained, and hands-on treatment of radar systems analysis and design. It quickly became a bestseller and was widely adopted by many professors. The second edition built on this successful format by rearranging and updating topics and code.
Reorganized, expanded, and updated, Radar Systems Analysis and Design Using MATLAB®, Third Edition continues to help graduate students and engineers understand the many issues involved in radar systems design and analysis. Each chapter includes the mathematical and analytical coverage necessary for obtaining a solid understanding of radar theory. Additionally, MATLAB functions/programs in each chapter further enhance comprehension of the theory and provide a source for establishing radar system design requirements.
Incorporating feedback from professors and practicing engineers, the third edition of this bestselling text reflects the state of the art in the field and restructures the material to be more convenient for course use. It includes several new topics and many new end-of-chapter problems. This edition also takes advantage of the new features in the latest version of MATLAB. Updated MATLAB code is available for download on the book’s CRC Press web page.
Table of contents:
Chapter 1: Radar Fundamentals
Radar Classifications
Range and Range Resolution
Doppler Frequency
Coherence
The Radar Equation: Includes various forms such as low PRF, high PRF, surveillance, and bistatic radar equations.
Radar Losses: Discusses factors like transmit/receive losses, antenna pattern loss, atmospheric loss, and processing losses.
Chapter 2: Radar Cross Section (RCS)
RCS Definition and Prediction Methods
Dependency on Aspect Angle, Frequency, and Polarization
RCS of Simple Objects: Includes spheres, ellipsoids, and flat plates.
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Chapter 3: Continuous Wave (CW) and Pulsed Radar
CW Radar Equation
Resolving Range and Doppler Ambiguities
System Design Considerations
Chapter 4: Radar Detection
Probability of Detection
Swerling Models
Coherent and Non-Coherent Integration
Chapter 5: Radar Waveforms
CW, Pulsed, and Linear Frequency Modulated (LFM) Waveforms
High Range Resolution (HRR) and Stepped Frequency Waveforms
Chapter 6: Matched Filtering and Ambiguity Function
Matched Filter Design
Ambiguity Function Analysis
Chapter 7: Pulse Compression
Analog and Digital Pulse Compression
Fast Convolution and Stretch Processors
Binary Phase Codes and Frequency Codes
Chapter 8: Radar Wave Propagation
Multipath, Refraction, Diffraction
Divergence and Atmospheric Attenuation
Chapter 9: Clutter and Moving Target Indicator (MTI)
Surface and Volume Clutter
Clutter Mitigation Techniques
Chapter 10: Radar Antennas
Phased Arrays
Beamforming Techniques
Chapter 11: Target Tracking Radar Systems
Single Target Tracking: Sequential lobing, conical scan, monopulse, and range tracking.
Multiple Target Tracking: αβ and αβγ filters, Kalman filter.
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Chapter 12: Synthetic Aperture Radar (SAR)
SAR Signal Processing
Design Considerations
SAR Radar Equation
Chapter 13: Signal Processing
Overview of Signal Processing Techniques in Radar Systems
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Tags: Bassem Mahafza, Radar Systems, Analysis and Design