Abstract
毫米波综合孔径的成像技术在近场成像中有着广阔的应用前景,无需机械扫描,可稀疏阵列,具有较高的空间分辨率。毫米波综合孔径近场可视度模型可转化为V=AR+n,这是一个欠定方程组,解不唯一,且含有噪声。综合小波阈值去噪算法及均值滤波在去噪方面的优点,提出了一种改进的小波阈值去噪-滤波算法,并且改进了传统小波阈值去噪中的软、硬阈值法。通过将基于偏微分方程的正则化方法及改进的小波阈值去噪-滤波算法应用在一个实际的近场仿真实验中,比较发现改进的小波阈值去噪-滤波算法要优于基于偏微分方程的正则化方法。 Millimeter wave imaging technology using synthetic aperture has broad application prospects in the near field. It has high spatial resolution without mechanical scanning. Near-field millimeter wave synthetic aperture visibility model can be transformed into V=AR+n , this is an underde-termined equation, the solution is not unique, and it contains noise. An improved wavelet thre-sholding-filtering algorithm combining wavelet thresholding algorithm’s advantages and mean filtering’s advantages in terms of de-noising is presented. The method improves traditional soft and hard threshold method. At the last, we make the regularization method based on partial differential equations and the improved wavelet thresholding-filtering algorithm used in an actual near-field simulation experiment. By comparison, we find that the imaging results of the improved algorithm are better than the regularization method based on PDE.
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