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Azimuthal SAR Interferogram (azisar) Sylvain Barbot, Institute of Geophysics and Planetary Sciences, Scripps Institution of Oceanography, University of.

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Presentation on theme: "Azimuthal SAR Interferogram (azisar) Sylvain Barbot, Institute of Geophysics and Planetary Sciences, Scripps Institution of Oceanography, University of."— Presentation transcript:

1 Azimuthal SAR Interferogram (azisar) Sylvain Barbot, Institute of Geophysics and Planetary Sciences, Scripps Institution of Oceanography, University of California at San Diego

2 forward look interferogram backward look interferogram range direction double difference interferogram double difference suppresses topography and most of troposphere delays. measurement is still ambiguous, but no more relative (  0  ||  r||.cos  = 0) Geometry

3 efficient look direction antenna width wavelength first fringe  occurs for ||   r||  = 3L/8=3.75m (no wavelength dependence)  is the efficient look angle angular energy distribution angle first moment from energy distribution Real Aperture Radar

4 insardbldiff still not measured plane of sight azimuth (satellite track)incidence quake slip Azimuth View Angle

5 azimuth emitted pulse h=800 km S=5 km L=10 m fo=5.3 GHz range Synthetic Aperture Radar

6 Doppler frequency Instantaneous phase Total Doppler bandwidth nearest range Illumination duration T int Azimuth Compression

7 sensor target How to filter for look directions ? Range and look direction variation with time Look Direction

8 Doppler analysis

9 lines of equi-Doppler lines of equidistance flight line illuminated area Range/Doppler reference system How to filter for look direction ? Local ground incidence angle Doppler analysis

10 case of a zero Doppler centroid Doppler frequency varies linearly with time Doppler analysis Doppler frequency variation with time/space

11 Frequency spectrum in azimuth (antenna pattern modulation) Doppler centroid Doppler analysis Image spectrum=Doppler frequency *antenna spectrum * scene impulse response

12 zero Doppler centroid Doppler analysis Non-zero Doppler centroid case non-zero Doppler centroid forward look backward look

13 Doppler Power Spectrum Doppler frequency / PRF Aliasing Limit (DFT) Doppler centroid ~ 0.75 Doppler analysis backward look forward look backward look

14 Doppler analysis Doppler shift (freq. domain) = azimuth modulation (time domain) Doppler with range f d (r)/f 0 =a 2 r 2 +a 1 r+a 0 Doppler at acquisition Doppler centroid modulation Now easy to take backward and forward look shifted to center DFT backward forward

15 no need for Doppler compensation Hector Mine azimuth interferogram

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