Focusing the L-Band Spaceborne Bistatic SAR Mission Data Using a Modified RD Algorithm

LuTan-1 [(LT-1), i.e., TwinSAR-L] mission is an innovative spaceborne bistatic synthetic-aperture radar (BiSAR) mission focusing mainly on differential interferometry, which will be launched in 2020. This article introduces some important aspects of the LT-1 mission for the first time, including the...

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Bibliographic Details
Published in:IEEE transactions on geoscience and remote sensing 2020-01, Vol.58 (1), p.294-306
Main Authors: Li, Chuang, Zhang, Heng, Deng, Yunkai, Wang, Robert, Liu, Kaiyu, Liu, Dacheng, Jin, Guodong, Zhang, Yanyan
Format: Article
Language:English
Subjects:
2-D principle of stationary phase (2-DPOSP) spectrum
Algorithms
Azimuth
Computer simulation
Deformation
Differential interferometry
Doppler sonar
efficient baselines
Imaging
Imaging techniques
improved bistatic range-Doppler algorithm (RDA)
Interferometry
LuTan-1 (LT-1)
Orbits
Phase error
SAR (radar)
Satellites
Spaceborne radar
Stationary phase
Synthetic aperture radar
Topography (geology)
TwinSAR-L
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Summary:LuTan-1 [(LT-1), i.e., TwinSAR-L] mission is an innovative spaceborne bistatic synthetic-aperture radar (BiSAR) mission focusing mainly on differential interferometry, which will be launched in 2020. This article introduces some important aspects of the LT-1 mission for the first time, including the formation configuration, imaging mode, application scenarios, and the efficient baselines between the master satellite and the slave satellite. To realize the high accurate topography and deformation measurements, a wide swath BiSAR focusing algorithm with phase reserving ability should be developed. This article proposes a modified bistatic range-Doppler algorithm based on 2-D principle of stationary phase spectrum, which reduces the phase error introduced by the root term expansion and has an excellent focus performance and a good phase reserving ability. Finally, the spaceborne bistatic simulation experiments using orbital parameters and imaging mode of the LT-1 mission, including point targets and scene targets, are utilized to illustrate the validity and accuracy of the proposed algorithm.
ISSN:0196-2892
1558-0644
DOI:10.1109/TGRS.2019.2936255