电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2013年
7期
1525-1531
,共7页
彭学明%王彦平%谭维贤%洪文%吴一戎
彭學明%王彥平%譚維賢%洪文%吳一戎
팽학명%왕언평%담유현%홍문%오일융
雷达成像%机载下视%阵列3D-SAR%感兴趣区域 (ROI)%波数域成像方法
雷達成像%機載下視%陣列3D-SAR%感興趣區域 (ROI)%波數域成像方法
뢰체성상%궤재하시%진렬3D-SAR%감흥취구역 (ROI)%파수역성상방법
Radar imaging%Airborne downward-looking%Array 3D-SAR%Region Of Interest (ROI)%Wavenumber domain imaging method
3维波数域成像处理方法对回波信号距离历程不做近似,成像重建精度高。机载下视阵列3D SAR跨航向阵列长度相比跨航向幅宽小很多,需将回波信号尺寸补零到成像场景尺寸以防止FFT时出现卷绕,过高的补零倍数给波数域成像处理带来内存需求和运算量的激增。如果能够仅对ROI (Region Of Interest)而非整个观测场景进行成像处理就能够极大程度降低补零倍数,提高该算法的时效性。该文提出的波数域快速成像方法首先在波传播-航迹向和波传播-跨航向完成两次2维成像处理,结合两次2维成像处理结果确定ROI,最后使用3维波数域算法对ROI进行3维精确重建。实验数据验证了该文算法的有效性。
3維波數域成像處理方法對迴波信號距離歷程不做近似,成像重建精度高。機載下視陣列3D SAR跨航嚮陣列長度相比跨航嚮幅寬小很多,需將迴波信號呎吋補零到成像場景呎吋以防止FFT時齣現捲繞,過高的補零倍數給波數域成像處理帶來內存需求和運算量的激增。如果能夠僅對ROI (Region Of Interest)而非整箇觀測場景進行成像處理就能夠極大程度降低補零倍數,提高該算法的時效性。該文提齣的波數域快速成像方法首先在波傳播-航跡嚮和波傳播-跨航嚮完成兩次2維成像處理,結閤兩次2維成像處理結果確定ROI,最後使用3維波數域算法對ROI進行3維精確重建。實驗數據驗證瞭該文算法的有效性。
3유파수역성상처리방법대회파신호거리역정불주근사,성상중건정도고。궤재하시진렬3D SAR과항향진렬장도상비과항향폭관소흔다,수장회파신호척촌보령도성상장경척촌이방지FFT시출현권요,과고적보령배수급파수역성상처리대래내존수구화운산량적격증。여과능구부대ROI (Region Of Interest)이비정개관측장경진행성상처리취능구겁대정도강저보령배수,제고해산법적시효성。해문제출적파수역쾌속성상방법수선재파전파-항적향화파전파-과항향완성량차2유성상처리,결합량차2유성상처리결과학정ROI,최후사용3유파수역산법대ROI진행3유정학중건。실험수거험증료해문산법적유효성。
3D wavenumber domain imaging algorithm takes no approximation of the range course and owns high image reconstruction precision. The cross-track dimensional array length is much shorter than cross-track dimensional imaging swath in downward-looking array 3D SAR. In order to avoid wrapping during FFT operation, the echo signal should be zero-padded to the size of the imaging scene. Extortionate zero-padding operation causes high memory requirements and computation loads. Low zero-padding is required if Region Of Interest (ROI) is only dealted instead of the whole imaging scene which helps to boost the algorithm. In this paper, a method is introduced which accomplishes wave-propagation and along-track dimensional, wave-propagation and cross-track dimensional 2D imaging, then the ROI is determined based on the twice imaging results. Finally, the ROI is processed with 3D wavenumber domain imaging algorithm. The effectiveness of the introduced method is verified with experimental data.
