Abstract
Abstract. Multiple CCDs are used in space-borne camera system to have multiple bands and/or to have wider swath even in one band. Due to design constraints, the multiple CCDs may be placed at different position on the effective focal plane. In such case, each band or each CCD in a band has different look angle, and hence suffers so-called "parallax effect" when registration between images from different CCD is required. Since the parallax effect is a function of height of the target when the baseline is fixed, the displacement of each target for the registration differs from target to target depending on the height of each target in the images. Hence, the registration between images from different CCDs cannot be achieved using simple affine transform, and rather requires higher order matching methods, such as local warping. In this paper, we suggest the band registration method which includes the compensation of terrain relief by sensor model with DEM data. Since the parallax effect is compensated in this approach, the simpler matching strategy can be adopted for the robustness of algorithm. In the proposed approach, the slave image is resampled to virtual CCD geometry, which has same geometry with master image. In order to realize such approach, accurate camera model for each band and DEM data were used. The difference of proposed approach with conventional ortho-rectification is that the geometry of master image is kept. The experiment results demonstrated that proposed method can effectively correct the displacement caused by parallax effect.
Highlights
In remote sensing, high resolution space-borne camera system having a larger swath width are equipped with a several bands comprised of the combination of a several CCD lines(Jacobsen, K. 2006)
Even though the images of each band were taken from same ground area, they do not match together with simple affine transform due to parallax effect
High resolution optical satellites require taking image using a lager swath width comprised of multiple CCDs
Summary
High resolution space-borne camera system having a larger swath width are equipped with a several bands comprised of the combination of a several CCD lines(Jacobsen, K. 2006). The different locations of CCD lines cause the unique geometry of each band, and that makes the different look angle. The displacement of a target varies with target height with given sensor geometry This parallax effect causes registration error when a simple first order model is used to register two images from different geometry. In order to prevent the errors caused by height and the different looking angles, we need to correct terrain relief effects between bands. We suggest a band registration approach based on terrain relief correction. We suggest band registration using terrain relief correction based on the rigorous sensor model using DEM data extracted from SRTM. In this paper, suggested algorithm is to replace the slave band’s geometry with the reference band’s geometry considering height information of target
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