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Preface | ||
Introduction | ||
Ch. 1 | One-Dimensional Signals | 1 |
1.1 | Fourier Transform | 1 |
1.2 | Properties of Fourier Transform | 5 |
1.3 | Discrete Fourier Transform | 21 |
1.4 | Linear Shift-Invariant Systems | 24 |
1.5 | Coordinate Transformation | 24 |
1.6 | Coherent Processing of Bandpass Signals | 27 |
1.7 | One-Dimensional Echo Imaging | 30 |
1.8 | Temporal Doppler Phenomenon | 57 |
1.9 | Time-Frequency Diversity (FM-CW) Signaling | 64 |
1.10 | One-Dimensional Transmission Imaging | 100 |
1.11 | Amplitude-Modulated and Phase-Modulated Signals | 105 |
1.12 | Spatial Doppler Phenomenon | 108 |
Ch. 2 | Two-Dimensional Signals | 129 |
2.1 | Two-Dimensional Signals | 129 |
2.2 | Two-Dimensional Fourier Transform | 135 |
2.3 | Two-Dimensional Linear Shift-Invariant Systems | 143 |
2.4 | Fourier Properties of Propagating Waves | 147 |
2.5 | Coordinate Transformation | 160 |
2.6 | Two-Dimensional Sampling | 167 |
2.7 | Reconstruction | 179 |
Ch. 3 | Phased Array Imaging | 187 |
3.1 | Phased Arrays | 187 |
3.2 | An Element's Radiation Pattern | 190 |
3.3 | Dynamic Focusing | 196 |
3.4 | Generalized Beamforming | 209 |
3.5 | Air Traffic Control/Surveillance Radar | 211 |
3.6 | Electronically Scanning Linear Arrays | 218 |
3.7 | Resolution, Reconstruction, and Sampling Constraints | 223 |
3.8 | Electronically Scanning Circular Arrays | 233 |
3.9 | Mechanically Rotating Element | 239 |
3.10 | Spatial-Velocity Imaging with FM-CW Signaling | 245 |
Ch. 4 | Synthetic Aperture Array Imaging | 261 |
4.1 | Synthetic Aperture Radar | 261 |
4.2 | Pulsed SAR System Model | 264 |
4.3 | Pulsed SAR Spatial Doppler-Based Inversion | 272 |
4.4 | Resolution, Reconstruction, and Sampling Constraints | 274 |
4.5 | Compensation for Deviations in Flight Path | 300 |
4.6 | Slant-Plane Geometry and Interferometric SAR | 302 |
4.7 | Stripmap SAR: Fresnel Approximation-Based Inversion | 308 |
4.8 | Plane Wave Approximation-Based Inversion | 311 |
4.9 | Doppler Beam Sharpened CW SAR | 317 |
4.10 | FM-CW SAR/ISAR Imaging | 322 |
4.11 | Bistatic SAR/ISAR Imaging | 337 |
4.12 | Spaceborne (Circular) SAR Imaging | 339 |
Ch. 5 | Blind-Velocity SAR/ISAR Imaging | 352 |
5.1 | Mean Spatial Doppler Shift | 353 |
5.2 | SAR Imaging of Slowly Moving Ground Targets | 354 |
5.3 | SAR Imaging of Moving Targets in Aerial Combat | 370 |
5.4 | ISAR Imaging of Moving Targets | 372 |
5.5 | Temporal Doppler Processing | 376 |
5.6 | ISAR Imaging of Maneuvering Targets | 380 |
5.7 | ISAR Detection and Imaging in Heavy Clutter | 384 |
5.8 | ISAR Imaging of an Airborne DC-9 | 403 |
5.9 | Automatic Target Detection from Incoherent ISAR Data | 420 |
5.10 | ISAR Imaging of a Rotating Target | 432 |
Ch. 6 | Passive Array Imaging and Detection | 440 |
6.1 | Coherent Wide-Band Imaging | 441 |
6.2 | Incoherent Narrow-Band Imaging | 483 |
6.3 | Bistatic (Stereo) Detection of Multiple Targets | 457 |
6.4 | Passive Synthetic Aperture Array Imaging | 469 |
6.5 | Passive Inverse Synthetic Aperture Array Imaging | 479 |
6.6 | Interferometric Aperture Synthesis for Celestial Imaging | 484 |
Ch. 7 | Bistatic Array Imaging | 505 |
7.1 | Echo Imaging | 505 |
7.2 | Transmission Imaging | 512 |
7.3 | A Geophysical Imaging Modality | 527 |
7.4 | Geometrical Optics Approximation-Based Imaging | 533 |
Index | 551 |
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Add Fourier Array Imaging, The past forty years have seen a number of imaging modalities developed for radar, sonar, diagnostic medicine, geophysical and celestial exploration, and non-destructive testing. Now, for those involved in designing and developing information processing t, Fourier Array Imaging to your collection on WonderClub |