基于空域非均匀傅里叶变换的傅里叶望远镜  被引量:3

Fourier telescopy based on spatial non-uniform Fourier transform

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作  者:于树海[1,2] 王建立[1] 董磊[1] 刘欣悦[1] 王国聪[1,2] 

机构地区:[1]中国科学院长春光学精密机械与物理研究所,长春130033 [2]中国科学院大学,北京100039

出  处:《强激光与粒子束》2013年第7期1661-1665,共5页High Power Laser and Particle Beams

基  金:国家高技术发展计划项目

摘  要:为了在稀疏发射阵列下清晰重构目标图像,提出了一种基于空域非均匀傅里叶变换(NDFT)的傅里叶望远镜信号处理方法。依据傅里叶望远镜的发射器位置与抽取的目标空间频率关系,结合MATLAB程序特点,完成了空域非均匀傅里叶逆变换,重构了目标图像。稀疏发射阵列配置方式为:T型阵列单臂放置11个发射望远镜,连续抽取目标的8个低频信息,再抽取3个高频分量。选择不同形状和灰度分布的4个卫星作为成像目标。与补零均匀快速傅里叶变换(FFT)方法重构的图像对比发现:信噪比为100dB时,相比补零均匀FFT方法,NDFT方法重构图像的Strehl比都有所提升,最高提升了0.159 8。In order to reconstruct the image using sparse emitter array, a process based on spatial non-uniform Fourier transform (NDFT) method was proposed. According to the relationship between the extracted spatial frequency of target and the position of Fourier telescope emitters and considering the MATLAB program characteristics, we completed the inverse Fourier transform of non-uniform airspace and reconstructed the image of target. Sparse emitter array configuration is as follows: 11 launch telescopes are placed on the T-array single arm, eight low-frequency components are continuously extracted and then fol- lowed by three high-frequency components. We selected four satellites with different shape and gray distribution as the imaging target. Comparing our reconstructed images with those by fast Fourier transform with zero-padding, we found that in the pres- ence of noise (100 dB signal-to-noise ratio), the Strehl ratios of the images reconstructed with NDFT method are improved and the highest one is enhanced by 0. 159 8.

关 键 词:成像系统 非均匀傅里叶变换 傅里叶望远镜 稀疏发射阵列 

分 类 号:V557[航空宇航科学与技术—人机与环境工程]

 

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