Abstract
Abstract. The direct determination of exterior orientation parameters (EOP) of aerial images via integration of the Inertial Measurement Unit (IMU) and GPS is often used in photogrammetric mapping nowadays. The accuracies of the EOP depend on the accurate parameters related to sensors mounting when the job is performed (offsets of the IMU relative to the projection centre and the angles of boresigth misalignment between the IMU and the photogrammetric coordinate system). In principle, when the EOP values do not achieve the required accuracies for the photogrammetric application, the approach, known as Integrated Sensor Orientation (ISO), is used to refine the direct EOP. ISO approach requires accurate Interior Orientation Parameters (IOP) and standard deviation of the EOP under flight condition. This paper investigates the feasibility of use the in situ camera calibration to obtain these requirements. The camera calibration uses a small sub block of images, extracted from the entire block. A digital Vexcel UltraCam XP camera connected to APPLANIX POS AVTM system was used to get two small blocks of images that were use in this study. The blocks have different flight heights and opposite flight directions. The proposed methodology improved significantly the vertical and horizontal accuracies of the 3D point intersection. Using a minimum set of control points, the horizontal and vertical accuracies achieved nearly one image pixel of resolution on the ground (GSD). The experimental results are shown and discussed.
Highlights
The determination of exterior orientation parameters (EOP) is a fundamental work phase in all photogrammetric projects related to geoinformation extraction from imagery
A study was performed to figure out a methodology to improve the performance of the Integrated Sensor Orientation (ISO) approach based on the hypothesis that Interior Orientation Parameters (IOP) estimated under flight condition improve the quality of ISO
In conclusion; for the block of images and dataset of direct EOP used in this study, the ISO approach achieved horizontal and vertical accuracies nearly to one image pixel of resolution on the ground (GSD) when control points and IOP from in situ calibration were used
Summary
The determination of exterior orientation parameters (EOP) is a fundamental work phase in all photogrammetric projects related to geoinformation extraction from imagery. The second, known as Integrated Sensor Orientation, is used to refine the direct EOP when their values do not achieve the required accuracies for the photogrammetric application. To estimated accurate EOP from direct sensor orientation it is required accurate parameters related to sensors mounting (the offsets of the IMU relative to the projection centre and the angles of boresigth misalignment between the IMU and the photogrammetric coordinate system) (Yastikli and Jacobsen, 2005). The Integrated Sensor Orientation (ISO) is used to improve the quality of the direct EOP estimation when its values do not attain the required accuracies for the photogrammetric application. The following three sections contain information about the photogrammetric blocks used in this study, methodology to improve the accuracies of the Integrated Sensor Orientation, the obtained results from the performed experiments and discussed,. ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume III-1, 2016 XXIII ISPRS Congress, 12–19 July 2016, Prague, Czech Republic as well as the conclusions and recommendations for future work
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