基于空间约束和结构特征的光学与SAR影像配准

An Automatic Registration Method for Optical and SAR Images Based on Spatial Constraint and Structure Features

  • 摘要: 针对光学和合成孔径雷达(synthetic aperture radar, SAR)影像间的几何形变和辐射差异造成的配准困难问题,提出一种基于空间几何约束和结构特征的光学影像与SAR影像自动配准方法。首先,利用分块的Harris算子在输入影像上提取分布均匀的特征点,根据有理函数模型对输入影像进行局部几何纠正,实现输入影像与参考影像间的局部粗配准;其次,利用影像的方向梯度信息构建几何结构特征描述符,并将其转换到频率空间,以相位相关为相似性测度,采用模板匹配的策略进行同名点快速识别;再次,由最小二乘法根据影像间的空间几何约束关系进行误差剔除;最后,进行几何纠正实现影像间的精配准。通过利用多组国产高分辨率光学和SAR影像进行实验,实验结果表明,与传统配准方法相比,该方法具有更高的匹配速率与配准精度。

     

    Abstract:
      Objectives  To address significant geometric deformation and radiometric differences between optical and synthetic aperture radar (SAR) images, this paper proposes an automatic registration method based on spatial geometry constraint and structure feature.
      Methods  Firstly, the Harris detector with a block strategy is used to extract evenly distributed feature points in the input images. Subsequently, a local geometric correction is performed for the input image by using rational function model, which aims to achieve local coarse registration between the input image and the reference image. Then, the geometric structural feature descriptor is constructed by using orientated gradient information of images, and the feature descriptor is transformed into the frequency domain, the phase correlation is used as the similarity metric to achieve correspondences by employing a template matching strategy. Finally, the least square method is used to eliminate the mismatches based on spatial geometric constraint relationship between images, followed by a process of geometric correction to achieve the image registration.
      Results and Conclusions  Three sets of high-resolution optical and SAR images were selected as the experimental data. The results the proposed outperform traditional methods in both matching performance and computational efficiency.The proposed method can achieve the registration of optical and SAR effectively and accurately.

     

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