A Novel 2-D Autofocusing Algorithm for Real Airborne Stripmap Terahertz Synthetic Aperture Radar Imaging
Yinwei Li, Jiawei Wu, Qianqian Mao, X. Han, Fei Meng, Wenquan Gao, Yiming Zhu
Abstract
In practical applications, airborne terahertz synthetic aperture radar (THz-SAR) echo signal is not only affected by range amplitude and phase errors introduced by non-ideal THz device, but also affected by motion error in azimuth induced by the non-ideal trajectory of platform, resulting in the two-dimensional (2-D) defocus of image. To address the above errors, a novel 2-D autofocusing algorithm for real airborne stripmap THz-SAR imaging is proposed. In range autofocusing, the amplitude and phase errors are estimated simultaneously in range frequency domain based on the dominant point target selected in the preliminary focused images. To avoid dividing more sub-apertures in azimuth error estimate, the autofocusing method based on the maximization of image contrast is adopted. Then, range-Doppler algorithm integrated with the proposed 2-D autofocusing are performed to obtain the focused images. The real measured data, acquired by a 0.22 THz airborne SAR system, are used to demonstrate the validity of the proposed algorithm. By comparing the imaging results, the proposed method can effectively and efficiently focus airborne stripmap THz-SAR images.