Singapore : , : Wiley, , 2014

©2014

1-118-60959-X

1-118-60958-1

1-118-60957-3

1 online resource (438 p.)

621.3848/5

Synthetic aperture radar

MIMO systems

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Cover; Title Page; Copyright; Contents; About the Authors; Preface; Acknowledgments; Chapter 1 Introduction; 1.1 Development of Modern Radar; 1.2 Basic Features of SIAR; 1.3 Four Anti Features of SIAR; 1.3.1 Anti-stealth of SIAR; 1.3.2 Anti-reconnaissance of SIAR; 1.3.3 Anti-ARM of SIAR; 1.3.4 Anti-interference of SIAR; 1.4 Main Types of MIMO Radar; 1.5 SIAR and MIMO Radar; 1.6 Organization of This Book; References; Chapter 2 Radar Common Signal Waveform and Pulse Compression; 2.1 Mathematical Form and its Classification of Radar Signal; 2.1.1 Signal Mathematical Form

2.1.2 Radar Signal Classification2.2 The Ambiguity Function and Radar Resolution; 2.2.1 Definition and Properties of the Ambiguity Function; 2.2.2 Radar Resolution; 2.2.3 The Ambiguity Function of a Constant-Frequency Pulse; 2.3 FM Pulse Signal and its Pulse Compression; 2.3.1 Linear Frequency Modulation (LFM or Chirp) Pulse Signal; 2.3.2 NLFM Pulse Signal; 2.3.3 LFM Pulse Compression; 2.3.4 Range-Doppler Uncertainty Principle of LFM; 2.4 Phase Coded Pulse Signal and its Processing; 2.4.1 The Waveform and Its Characteristic of Binary Phase Coded Signals; 2.4.2 Barker Codes

2.4.3 M-sequence Coded Signal2.4.4 Pulse Compression for a Phase

Coded Signal; 2.4.5 The Effect of Doppler on a Phase Coded Signal; 2.4.6 Comparison of an LFM Signal with a Phase Coded Signal; 2.5 Stepped-Frequency Pulse Signal and its Processing; 2.5.1 Stepped-Frequency (Hop-Frequency) Pulse Signal; 2.5.2 FM Stepped Pulse Signal; 2.5.3 Stepped-Frequency Waveform Synthesis Processing; 2.6 Orthogonal Waveform; 2.6.1 The Orthogonal Waveform; 2.6.2 Orthogonal Binary Phase Coded Sequence Design Based on the Genetic Algorithm; 2.7 MATLAB® Program List; References; Chapter 3 System Design of SIAR

3.1 Introduction3.2 Principles of SIAR; 3.2.1 Orthogonal Frequency-Coded Signals; 3.2.2 Concepts of Impulse Synthesis and Aperture Synthesis; 3.2.3 Spatial-Temporal 3D Matched Filtering; 3.2.4 Synthesis of the Transmit Beam; 3.3 Synthesis of Transmit Pulse and Aperture; 3.3.1 Wideband Signal Model of SIAR; 3.3.2 Impulse Synthesis in Time and Frequency Domains; 3.3.3 Impulse Synthesis in the Time Domain; 3.3.4 Impulse Synthesis in the Frequency Domain; 3.3.5 Sampling Loss and its Compensation; 3.4 4D Ambiguity Function of SIAR; 3.4.1 Ambiguity Function of a Common Radar

3.4.2 4D Ambiguity Function of SIAR3.4.3 Analysis of 4D Resolution Capability; 3.5 Radar Equation of SIAR and its Characteristics; 3.5.1 SIAR Radar Equation and Phased Array Radar Equation; 3.5.2 Energy Utilization Ratio of SIAR; 3.5.3 LPI Performance of SIAR; 3.5.4 Compare SIAR with PAR; 3.6 Experimental System of SIAR; 3.6.1 Antenna Subsystem; 3.6.2 Transmitting Subsystem; 3.6.3 Receiving Subsystem; 3.6.4 Frequency Synthesis Subsystem; 3.7 Gain and Phase Calibration of SIAR; 3.8 Experimental Results of SIAR; 3.9 SIAR with Large Random Sparse Array; 3.10 Brief Summary

3.11 MATLAB® Program List

Analyzes and discusses the operating principle, signal processing method, and experimental results of this advanced radar technology  This book systematically discusses the operating principle, signal processing method, target measurement technology, and experimental results of a new kind of radar called synthetic impulse and aperture radar (SIAR). The purpose is to help readers acquire an insight into the concept and principle of the SIAR, to know its operation mode, signal processing method, the difference between the traditional radar and itself, the designing ideals, and the developing me