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PIER PIER B PIER C PIER M PIER Letters
2013-07-31
Azimuth Multichannel SAR Imaging Based on Compressed Sensing
By
Mingjiang Wang,

    Dr. Mingjiang Wang

    Space Microwave Remote Sensing System Department

    Institute of Electronics, Chinese Academy of Sciences

    China

    Homepage

Weidong Yu,

    Dr. Weidong Yu

    Space Microwave Remote Sensing System Department

    Institute of Electronics, Chinese Academy of Sciences

    China

    Homepage

Robert Wang

    Prof. Robert Wang

    Institute of Electronics, Chinese Academy of Sciences

    China

    Homepage

Progress In Electromagnetics Research, Vol. 141, 497-516, 2013
doi:10.2528/PIER13052205
Abstract
Azimuth multichannel is a promising technique of realizing high resolution and wide swath for synthetic aperture radar (SAR) imaging, which consequently leads to extremely high data rate on satellite downlink system and confronts serious ambiguity in subsequent processing due to its strict limitation of pulse repetition frequency (PRF). Ambiguity suppression performance of conventional spectrum construction is disappointing when the samples are approximately overlapped. To overcome these weaknesses, a novel sparse sampling scheme for displaced phase center antennas based on compressed sensing (CS) is proposed in this paper. The imaging strategy sparsely sampled in both range and azimuth direction, leading to a significant reduction of the system data amount beyond the Nyquist theorem, and then operated the CS technique in two dimensions to accomplish target reconstruction. Effectiveness of the proposed approach was validated through simulation and real data experiment. Simulation results and analysis indicated that the new imaging strategy could provide several favorable capability than conventional imaging algorithm such as less sampled data, better ambiguity suppression, higher resolution, and lower integrated side-lobe ratio (ISLR).
Citation
Mingjiang Wang, Weidong Yu, and Robert Wang, "Azimuth Multichannel SAR Imaging Based on Compressed Sensing," Progress In Electromagnetics Research, Vol. 141, 497-516, 2013.
doi:10.2528/PIER13052205
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