Title :
One-Stationary Bistatic Side-Looking SAR Imaging Algorithm Based on Extended Keystone Transforms and Nonlinear Chirp Scaling
Author :
Li, Zhongyu ; Wu, Junjie ; Li, Wenchao ; Huang, Yulin ; Yang, Jianyu
Author_Institution :
Univ. of Electron. Sci. & Technol. of China, Chengdu, China
Abstract :
One-stationary bistatic side-looking synthetic aperture radar (OS-BiSAR) data are more challenging to process than the translational azimuth-invariant bistatic counterparts because 2-D spatial variances exist in OS-BiSAR. To overcome the problem, extended-keystone-transform (EKT)-nonlinear-chirp-scaling (NLCS) imaging algorithm is proposed in this letter. The key steps of the proposed algorithm are deducing the twice EKTs to deal with the 2-D spatial variance of range cell migrations and equalizing the 2-D spatial variant Doppler FM rates by using the associative NLCS. As a result, raw data of OS-BiSAR can be well focused even with the 2-D spatial variances. The simulations given at the end of this letter verify the effectiveness of this imaging algorithm.
Keywords :
Doppler radar; radar imaging; synthetic aperture radar; transforms; 2D spatial variances; 2D spatial variant Doppler FM rates; EKT-NLCS imaging algorithm; OS-BiSAR data; extended-keystone-transform-nonlinear-chirp-scaling imaging algorithm; one-stationary bistatic side-looking SAR imaging algorithm; one-stationary bistatic side-looking synthetic aperture radar data; range cell migrations; translational azimuth-invariant bistatic counterparts; Azimuth; Couplings; Doppler effect; Frequency domain analysis; Frequency modulation; Imaging; Receivers; 2-D spatial variances; Extended keystone transforms (KTs) (EKTs); OS-BiSAR; nonlinear chirp scaling (CS) (NLCS);
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2012.2198611
