Spaceborne ISAL Imaging Algorithm for High-Speed Moving Targets

During the spaceborne ISAL (Inverse Synthetic Aperture Ladar) imaging, the radial velocity between the piggyback satellite of ladar and the observed satellite is usually relatively large, which will introduce the inner-pulse Doppler that cannot be ignored in the echo. In this case, the traditional "stop-and-go" assumption will no longer hold, and the compressed result along the range direction would be seriously broaden. Therefore, to obtain a well-focused ISAL image, this paper proposed a spaceborne ISAL imaging algorithm for high-speed moving targets based on the inner-pulse Doppler compensation and RVP (Residue Video Phase) correction. In the paper, the estimate method of the radial velocity, the inner-pulse Doppler compensation method and the RVP correction method are given. After inner-pulse Doppler compensation, RVP correction and translational motion compensation, the range-compressed result under the "stop-and-go" assumption can be obtained, and the target can then be imaged by the traditional ISAL imaging algorithm. The simulation results demonstrate the effectiveness of the proposed algorithm.