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Spatial Baseline Optimization for Spaceborne Multistatic SAR Tomography Systems
2019
Sensors
Spaceborne multistatic synthetic aperture radar (SAR) tomography (SMS-TomoSAR) systems take full advantage of the flexible configuration of multistatic SAR in the space, time, phase, and frequency dimensions, and simultaneously achieve high-precision height resolution and low-deformation measurement of three-dimensional ground scenes. SMS-TomoSAR currently poses a series of key issues to solve, such as baseline optimization, spatial transmission error estimation and compensation, and the choice
doi:10.3390/s19092106
fatcat:242hvihubzfl3exkboxgflnuua