一种高超星图高精度半盲复原算法

针对高超声速飞行器在平流层内应用天文导航时受气动光学效应及运动模糊影响后难以观星和高精度导航的问题，提出一种基于正则化思想的高超星图半盲复原算法。该算法首先针对高超星图的特点进行去噪与星点初提取等预处理操作，接着从图像中提出可用的模糊核信息，并通过融合达到去噪的目的。然后结合天文图像灰度及梯度的稀疏先验分布特性，提出一种针对高超星图的正则化非盲复原模型，利用分裂布雷格曼迭代法等算法迭代估计清晰图像。将本算法与传统星图复原算法、其他最新正则化复原算法进行星图复原与导航效果比较，结果表明本算法复原效果最佳，且能明显改善星点识别正确率及质心坐标计算精度，可用于大幅提高超声速飞行器在平流层中的天文导航适应性及导航精度。

A High Accuracy Semi Blind Restoration Algorithm for a Hypersonic Star Image

 A semi-blind restoration algorithm of a hypersonic star image based on the regularization method is proposed, which can be used in the celestial navigation of a hypersonic vehicle disturbed by the aero-optical effect and motion blur in order to solve the problem of the star recognition and navigation accuracy. In the algorithm, the pre-processing operations are carried out firstly, such as denoising and star-point initilal extration depend on  the characteristics of hypersonic star images. The useful imformation of kernel is extracted from image and fused to denoise the kernel. Based on the sparse prior of both the gray image and its gradient of the star image, a regularized nonblind restoration model for a hypersonic star image is proposed to estimate the clear image with the help of the Bregman iterative algorithm. The algorithm is compared with the traditional star image restoration algorithm and the other state-of-art regularization restoration algorithms in experiments. The results show that the proposed algorithm has the best recovery ability, which can obviously improve the accuracy of star recognition. Thus, it can be used to greatly improve the adaptability and accuracy of the celestial navigation of a supersonic vehicle in the stratosphere.