Title :
Azimuth Overlapped Subaperture Algorithm in Frequency Domain for Highly Squinted Synthetic Aperture Radar
Author :
Yu Tang ; Bo Zhang ; Mengdao Xing ; Zheng Bao ; Liang Guo
Author_Institution :
Nat. Lab. of Radar Signal Process., Xidian Univ., Xi´an, China
Abstract :
The high-resolution imaging of a highly squinted synthetic aperture radar remains difficult because of the severe coupling between the range and the azimuth. “Squint minimization” compensates for the range walking in the azimuth time domain, which efficiently increases the orthogonality between the range and the azimuth. However, this “squint minimization” introduces the azimuth space-variant phases, which can be compensated by the azimuth nonlinear chirp-scaling (ANCS) algorithm using large computational loads. In this letter, an azimuth overlapped subaperture algorithm (AOSA) is proposed to compensate for these phases in the Doppler frequency domain. The validity constraint of this algorithm is then analyzed. The AOSA has an advantage over ANCS in terms of the computational load and is considerably more suitable for real-time processing.
Keywords :
geophysical techniques; geophysics computing; radar imaging; remote sensing by radar; synthetic aperture radar; Doppler frequency domain; azimuth nonlinear chirp-scaling algorithm; azimuth overlapped subaperture algorithm; azimuth space-variant phases; azimuth time domain; computational load; frequency domain; high-resolution imaging; highly squinted SAR; large computational loads; real-time processing; squint minimization; synthetic aperture radar; Azimuth; Equations; Estimation; Indexes; Mathematical model; Signal processing algorithms; Synthetic aperture radar; Azimuth overlapped subaperture algorithm (AOSA); highly squinted synthetic aperture radar; space-variant phases;
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2012.2219033
