Precision rectification of high resolution satellite imagery without ephemeris data |
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| Authors: | Saeid Sadeghian Mohammad Javad Valadan Zoej Mahmoud Reza Delavar Ahmad Abootalebi |
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| Institution: | a Surveying Engineering Department, Engineering Faculty, Tehran University, Tehran, Iran;b National Cartographic Center (NCC), PO Box 13185-1684, Tehran, Iran;c Department of Geodesy and Geomatics Engineering, K.N. Toosi University of Technology, No. 1346, PO Box 19697, Tehran, Iran |
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| Abstract: | The huge capability of high resolution satellite imageries (HRSI), that includes spatial, spectral, temporal and radiometric resolutions as well as stereoscopic vision introduces them as a powerful new source for the Photogrammetry, Remote Sensing and GIS communities. High resolution data increases the need for higher accuracy of data modeling. The satellite orbit, position, attitude angles and interior orientation parameters have to be adjusted in the geometrical model to achieve optimal accuracy with the use of a minimum number of Ground Control Points (GCPs). But most high resolution satellite vendors do not intend to publish their sensor models and ephemeris data. There is consequently a need for a range of alternative, practical approaches for extracting accurate 2D and 3D terrain information from HRSI. The flexibility and good accuracy of the alternative models demonstrated with KFA-1000 and the well-known SPOT level 1A images. A block of eight KFA-1000 space photos in two strips with 60% longitudinal overlap and 15% lateral sidelap and SPOT image with rational function, DLT, 2D projective, polynomials, affine, conformal, multiquadric and finite element methods were used in the test. The test areas cover parts of South and West of Iran. Considering the quality of GCPs, the best result was found with the DLT method with a RMSE of 8.44 m for the KFA-1000 space photos. |
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| Keywords: | High resolution satellite imagery IKONOS SPOT KFA-1000 mathematical models rational function DLT multiquadric finite elements accuracy |
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