摘要
The spaceborne inverse synthetic aperture radar(ISAR)has attracted significant attention due to its extensive observation range and imaging performance.However,the complex motion between spaceborne platform and the air target leads to complex signal modulation.The scattering anisotropy and occlusion lead to the scattering points missing problem.These problems pose a serious challenge to the traditional ISAR imaging algorithms.Aiming at the above problems,this paper proposes a joint intra-frame and inter-frame imaging algorithm based on spaceborne ISAR.In this algorithm,we divide the long coherent processing interval into several sub-apertures using the narrow-band tracking data,and each-order terms of the signal within sub-aperture is derived in detail.Then,the intra-frame algorithm based on the parametric minimized image entropy search is proposed to correct the spatial-variant phase errors caused by the complex relative motion.As to the well-focused images from different views and the rotation parameters obtained in sub-apertures,the inter-frame algorithm based on wavelet transform can perform image registration and image fusion to obtain more detailed target feature information and more complete target structure.In simulated and real-measured data experiments,the effectiveness and superiority of the proposed algorithm are validated.
基金
supported by the National Science Fund for Distinguished Young Scholars(62325104).
