A Variable-Decoupling- and MSR-Based Imaging Algorithm for a SAR of Curvilinear Orbit

Author

Zhou, Peng ; Xing, Mengdao ; Xiong, Tao ; Wang, Yong ; Zhang, Lei

Author_Institution

Nat. Key Lab. of Radar Signal Process., Xidian Univ., Xi´´an, China

Volume

8

Issue

6

fYear

2011

Firstpage

1145

Lastpage

1149

Abstract

For a synthetic aperture radar (SAR) onboard a platform with a rectilinear track, the range history of a point target can be accurately expressed hyperbolically. The track can be curvilinear for a maneuverable SAR platform. The hyperbolic equation becomes inadequate, and an expression with high-order terms is needed. Using the method of series reversion, we derived the 2-D spectrum for the return signal of the curvilinear SAR. There were five independent variables in the spectrum, but available imaging algorithms could only handle three in the focusing using the spectrum. Thus, a variable-decoupling method was developed to reparameterize the initial spectrum so that only three variables remained. After the incorporation of the decoupling method into the chirp-scaling algorithm, simulations of the SAR with a curvilinear track were studied. Promising results were obtained.

Keywords

hyperbolic equations; radar imaging; synthetic aperture radar; 2-D spectrum; MSR-based imaging algorithm; chirp-scaling algorithm; curvilinear SAR; curvilinear orbit; curvilinear track; hyperbolic equation; maneuverable SAR platform; rectilinear track; synthetic aperture radar; variable-decoupling method; variable-decoupling-based imaging; Azimuth; Equations; History; Imaging; Radar imaging; Radar tracking; Synthetic aperture radar; 2-D spectrum; Chirp-scaling (CS) algorithm; method of series reversion (MSR); synthetic aperture radar (SAR) of rectilinear or curvilinear track;

fLanguage

English

Journal_Title

Geoscience and Remote Sensing Letters, IEEE

Publisher

ieee

ISSN

1545-598X

Type

jour

DOI

10.1109/LGRS.2011.2158387

Filename

5948328