Linked e-resources
Details
Table of Contents
Preface; Acknowledgments; Contents; Symbols; 1 Fundamentals of Bistatic SAR; Abstract; 1.1 Introduction to BiSAR Development; 1.1.1 History of Theoretical Research; 1.1.2 Advantages and Application Prospects; 1.1.3 Challenges in Bistatic SAR; 1.2 Bistatic SAR Imaging Geometry; 1.2.1 Imaging Geometry; 1.2.2 Classification; 1.3 Two-Dimensional Resolution; 1.3.1 Concept of Resolution; 1.3.2 Range Resolution; 1.3.3 Azimuth Resolution; 1.3.4 Geometry Perspective; 1.3.5 Example; 1.4 Bistatic Radar Equation and Bistatic RCS; 1.4.1 Bistatic Radar Equation; 1.4.2 Bistatic RCS; 1.5 Summary; References.
2 Fundamentals of Bistatic SAR Imaging AlgorithmsAbstract; 2.1 Introduction; 2.2 Two-Dimensional Bistatic Point Target Reference Spectrum; 2.2.1 Loffeld Bistatic Formula (LBF); 2.2.2 Extended Loffeld Bistatic Formula; 2.2.3 Method of Series Reversion; 2.2.4 Two-Dimensional Principle of Stationary Phase; Appendix A: The Principle of Stationary Phase; Appendix B: Series Reversion; Appendix C: Two-Dimensional Principle of Stationary Phase; Appendix D: Overview of Weighting Concept; References; 3 Frequency-Domain Processing for an Azimuth-Invariant Configuration; Abstract; 3.1 Introduction.
3.2 Algorithm Based on LBF3.2.1 2D Inverse-Scaled FFT; 3.2.2 Bistatic Chirp-Scaling Algorithm; 3.3 Bistatic Range-Migration Algorithm; 3.4 Algorithm Based on Numeric Transfer Function; 3.5 Algorithm Based on MSR; References; 4 Frequency-Domain Processing for Azimuth-Variant Processing; Abstract; 4.1 Introduction; 4.2 Imaging Algorithm for AV Configurations; 4.2.1 Range-Doppler Algorithm (RDA); 4.2.2 Chirp Scaling Algorithm (CSA); 4.2.3 Wavenumber Domain Algorithm (WDA); 4.3 Experiment Validation (TerraSAR-X/PAMIR); References; 5 Bistatic SAR Motion Compensation; Abstract; 5.1 Introduction.
5.1.1 History5.1.2 Challenges; 5.2 Error Model; 5.2.1 Attitude Error Analysis; 5.2.2 Motion Error Analysis; 5.3 Motion Compensation Strategies; 5.3.1 Methods Based on a Single Dominant Scattering Point; 5.3.2 Method Based on IMU/GPS; 5.3.2.1 Preprocessing of the Position Information; 5.3.2.2 First-Order Motion Compensation; 5.3.2.3 Second-Order Motion Compensation; References; 6 One-Stationary Processing Algorithms; Abstract; 6.1 Introduction; 6.2 Frequency-Domain Algorithm; 6.2.1 One-Stationary Range-Doppler Algorithm; 6.2.2 NLCS Algorithm; 6.3 Time-Domain Algorithm.
6.3.1 Fast Time-Domain Processing6.4 Modified Bistatic Polar Format Algorithm; 6.4.1 ST-Mode SS-BiSAR Configuration; 6.4.2 Data Synchronization and Tropospheric Delay Correction; 6.4.3 Bistatic Focusing Using a Modified PFA; 6.4.4 Limitation and Solution; 6.4.5 Experimental Result; References; 7 Synchronization; Abstract; 7.1 Introduction; 7.2 Time Synchronization Analysis; 7.2.1 Time Synchronization Analysis; 7.2.2 Time Synchronization Strategy; 7.3 Phase Synchronization Analysis; 7.4 Inter-satellite Phase Synchronization; 7.4.1 Compensation Model of Phase Error.
2 Fundamentals of Bistatic SAR Imaging AlgorithmsAbstract; 2.1 Introduction; 2.2 Two-Dimensional Bistatic Point Target Reference Spectrum; 2.2.1 Loffeld Bistatic Formula (LBF); 2.2.2 Extended Loffeld Bistatic Formula; 2.2.3 Method of Series Reversion; 2.2.4 Two-Dimensional Principle of Stationary Phase; Appendix A: The Principle of Stationary Phase; Appendix B: Series Reversion; Appendix C: Two-Dimensional Principle of Stationary Phase; Appendix D: Overview of Weighting Concept; References; 3 Frequency-Domain Processing for an Azimuth-Invariant Configuration; Abstract; 3.1 Introduction.
3.2 Algorithm Based on LBF3.2.1 2D Inverse-Scaled FFT; 3.2.2 Bistatic Chirp-Scaling Algorithm; 3.3 Bistatic Range-Migration Algorithm; 3.4 Algorithm Based on Numeric Transfer Function; 3.5 Algorithm Based on MSR; References; 4 Frequency-Domain Processing for Azimuth-Variant Processing; Abstract; 4.1 Introduction; 4.2 Imaging Algorithm for AV Configurations; 4.2.1 Range-Doppler Algorithm (RDA); 4.2.2 Chirp Scaling Algorithm (CSA); 4.2.3 Wavenumber Domain Algorithm (WDA); 4.3 Experiment Validation (TerraSAR-X/PAMIR); References; 5 Bistatic SAR Motion Compensation; Abstract; 5.1 Introduction.
5.1.1 History5.1.2 Challenges; 5.2 Error Model; 5.2.1 Attitude Error Analysis; 5.2.2 Motion Error Analysis; 5.3 Motion Compensation Strategies; 5.3.1 Methods Based on a Single Dominant Scattering Point; 5.3.2 Method Based on IMU/GPS; 5.3.2.1 Preprocessing of the Position Information; 5.3.2.2 First-Order Motion Compensation; 5.3.2.3 Second-Order Motion Compensation; References; 6 One-Stationary Processing Algorithms; Abstract; 6.1 Introduction; 6.2 Frequency-Domain Algorithm; 6.2.1 One-Stationary Range-Doppler Algorithm; 6.2.2 NLCS Algorithm; 6.3 Time-Domain Algorithm.
6.3.1 Fast Time-Domain Processing6.4 Modified Bistatic Polar Format Algorithm; 6.4.1 ST-Mode SS-BiSAR Configuration; 6.4.2 Data Synchronization and Tropospheric Delay Correction; 6.4.3 Bistatic Focusing Using a Modified PFA; 6.4.4 Limitation and Solution; 6.4.5 Experimental Result; References; 7 Synchronization; Abstract; 7.1 Introduction; 7.2 Time Synchronization Analysis; 7.2.1 Time Synchronization Analysis; 7.2.2 Time Synchronization Strategy; 7.3 Phase Synchronization Analysis; 7.4 Inter-satellite Phase Synchronization; 7.4.1 Compensation Model of Phase Error.