Multi-frame image restoration method for novel rotating synthetic aperture imaging system

• Main Authors: Xiyang Zhi, Shikai Jiang, Lei Zhang, Jianming Hu, Lijian Yu, Xinhui Song, Jinnan Gong
• Format: Article
• Language: English
• Published: Elsevier 2021-04-01
• Series: Results in Physics
• Subjects: Rotating synthetic aperture; Multi-frame image restoration; Rectangular pupil; Directional gradient prior
• Online Access: http://www.sciencedirect.com/science/article/pii/S2211379721001601

The novel rotating synthetic aperture (RSA) optical imaging system is an important development direction for future high-resolution optical remote sensing satellites in geostationary orbit. However, owing to the rotating rectangular pupil, the point spread function of the RSA system has an asymmetric spatial distribution, and the images obtained using the primary mirror from different rotation angles have nonuniform blur degradation. Moreover, platform vibration and pupil rotation have coupling effects on the RSA imaging, resulting in further radiometric and geometric quality degradation. To address these problems, the image degradation characteristics are first analyzed according to the imaging mechanism. Then, combined with the theory of mutual information, an image registration method is suggested by introducing the orientation gradient information. From this, a multi-frame image restoration model is proposed based on the directional gradient prior of the RSA system image. From the perspective of interpretation and application, when the aspect ratio is less than 3, the proposed inversion restoration method can achieve a satisfactory processing performance. This work can provide engineering application reference for the future space application of RSA imaging technology.