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DISPLACED PHASE CENTER ANTENNA SAR IMAGING BASED ON COMPRESSED SENSING

Explore a novel SAR imaging method leveraging Compressed Sensing with Displaced Phase Center Antenna technology. Learn how this approach overcomes azimuth sampling challenges for high-quality radar imaging. Follow a detailed ground-based SAR experiment and future applications.

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DISPLACED PHASE CENTER ANTENNA SAR IMAGING BASED ON COMPRESSED SENSING

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  1. National Key Laboratory of Microwave Imaging Technology Institute of Electronics, Chinese Academy of Sciences DISPLACED PHASE CENTER ANTENNA SAR IMAGING BASED ON COMPRESSED SENSING Yueguan Lin 1,2,3, Bingchen Zhang 1,2, Wen Hong 1,2and Yirong Wu 1,2 1 National Key Laboratory of Science and Technology on Microwave Imaging, P. R. China 2 Institute of Electronics, Chinese Academy of Sciences (IECAS), Beijing, P. R. China 3 Graduate University of Chinese Academy of Sciences (GUCAS), Beijing, P. R. China

  2. Outlines • Introduction • DPCA SAR imaging based on Compressed Sensing • Ground-based DPCA SAR experiment • Conclusion and discussion • Acknowledgement

  3. Introduction • High azimuth resolution and wide unambiguous swath coverage are contradictive in SAR system design. • DPCA SAR has the potential to achieve HRWS imaging. While there is a rigid restriction posed on its selection of PRF: SAR platform moves just one half of its total antenna length between subsequent radar pulses . • When this condition is not satisfied, there will be nonuniform sampling in azimuth and rising azimuth ambiguities will appear under traditional imaging algorithms based on matched filter

  4. Introduction • Krieger proposed A Doppler spectrum reconstruction algorithm *. • This method can recover the unambiguous signal and suppress ambiguous energy. • It is computation costly as inversions of matrix are involved and the reconstruction of spectrum should be carried out for every azimuth signal. • * Krieger, G., Gebert, N., and Moreira, A.: ‘Unambiguous SAR signal reconstruction from nonuniform displaced phase center sampling’. IEEE Geoscience and Remote Sensing Letters, 2004, 1(4): 260-264.

  5. DPCA SAR imaging based on Compressed Sensing • Compressed Sensing • Xis sparse representable if there exists a sparsity basis that provides a K sparse representation of it. • When Φ satisfies Restricted Isometry Property. The number of measurements needed to reconstruct the signal is not restrained by the Nyquist sampling rate, but by the complexity of the signal. We only need M measurements, where • where N is the number of measurements needed by the Nyquist Theorem

  6. DPCA SAR imaging based on Compressed Sensing According to systems the DPCA SAR model can be constructed precisely where,y is the observations x is observed scene Φ is observation matrix nis observation noise.

  7. DPCA SAR imaging based on Compressed Sensing • The backscattering field of target is usually contributed by a few strong scattering centers, so CS is suitable in SAR imaging. • As the observation is constructed precisely according to SAR system parameters, the ambiguity causes by nonuniform effective azimuth phase centers doesn’t exist. • The observed scene can be reconstructed through solving an optimization problem

  8. Ground-based DPCA SAR experiment Ground-based DPCA SAR system with one aperture transmitting stepped frequency and three apertures receiving echoes. System parameters DPCA SAR system

  9. Ground-based DPCA SAR experiment Azimuth effective phase centers. Antennas • Effective azimuth phase centers of this DPCA SAR system are nonuniformly distributed.

  10. Ground-based DPCA SAR experiment RD imaging without preprocessing Observed trihedral corner reflector. • Result using traditional Range-Doppler algorithm without preprocessing has -17dB ambiguities.

  11. Ground-based DPCA SAR experiment Proposed CS imaging RD imaging with spectrum reconstruction • Result using RD algorithm after spectrum reconstruction has -25dB ambiguities; result using proposed imaging algorithm with ambiguities being suppressed under -30dB.

  12. Conclusion and discussion • DPCA SAR imaging algorithm based on CS can suppress the ambiguities caused by nonuniform sampling in azimuth and retrieve the target scene with high quality. • The experimental results with ground-based DPCA SAR system validate its advantage. • We will evaluate this method’s performance with real space borne and airborne raw data in next step. • The effect of observation noise will be researched.

  13. Acknowledgement • This work was supported by the State Key Development Program for Basic Research of China (Grant No. 2010CB731905).

  14. Thank you for your attention! Email: linyueguan@gmail.com

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