Combining modern spectral estimation with Time-Frequency representation

Combining modern spectral estimation with Time-Frequency representation

With Joint Time-Frequency Analysis (JTFA), one can estimate the speed of moving targets from Synthetic Aperture Radar (SAR) images. These targets are usually compact. JTFA estimation of water surface speeds is more difficult since the radar returns are weak and generated by Bragg scattering patches,...

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Bibliographic Details
Published in:2009 International Radar Conference "Surveillance for a Safer World" (RADAR 2009) pp. 1 - 4
Main Authors: Kersten, P.R., Jansen, R.W., Ainsworth, T.L., Toporkov, J.V., Sletten, M.A.
Format: Conference Proceeding
Language:English
Published: IEEE 01-10-2009
Subjects:
Azimuth
Chirp
Frequency estimation
Joint Time-Frequency Analysis (JTFA)
Radar imaging
Radar scattering
SAR
Sea surface
Spaceborne radar
surface water speed estimation
Synthetic aperture radar
Thyristors
Time frequency analysis
Time-Frequency (TF)
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Summary:With Joint Time-Frequency Analysis (JTFA), one can estimate the speed of moving targets from Synthetic Aperture Radar (SAR) images. These targets are usually compact. JTFA estimation of water surface speeds is more difficult since the radar returns are weak and generated by Bragg scattering patches, randomly distributed within the radar's footprint, both in time and space. To increase the signal strength, JTFA is applied to multiple range lines, which requires a generalization of the Time-Frequency representation (TFR). To do this, modern spectral estimation (MSE) techniques, which depend on estimating the data covariance matrix, are weaved into the framework of a TFR. The resulting TFR formed along azimuth-lines naturally integrates the data across multiple range-lines. We discuss and illustrate this technique on simulated data and then apply it to estimate the speed of moving water in a single-phase center SAR image. This method also enhances the signal-to-clutter ratio (SCR).
ISBN:9782912328557
2912328551
ISSN:1097-5764
2640-7736