| AUTOMATIC EXTRACTION OF CONTROL POINTS FROM 3D LiDAR MOBILE MAPPING and UAV IMAGERY FOR AERIAL TRIANGULATION |
| Paper ID : 1234-GEOSPATIAL (R4) |
| Authors: |
|
reza naimaee *1, Mohammad Saadat Seresht2, Mohammad Omidalizarandi3 1School of Surveying and Geospatial Engineering, College of Engineering, University of Tehran, Tehran, Iran 2Dept. of Photogrammetry and Remote Sensing 3Geodetic Institute, Leibniz University Hannover, Germany |
| Abstract: |
| Installing targets and measuring them as ground control points (GCPs) are time consuming and cost inefficient tasks in a UAV photogrammetry project. This research aims to automatically extract GCPs from 3D LiDAR mobile mapping system (L-MMS) measurements and UAV imagery to perform aerial triangulation in a UAV photogrammetric network. The L-MMS allows to acquire 3D point clouds of an urban environment including floors and facades of buildings with an accuracy of a few centimetres. Integration of UAV imagery, as complementary information enables to reduce the acquisition time of measurement as well as increasing the automation level in a production line. Therefore, a higher quality measurements and more diverse products are obtained. This research hypothesises that the spatial accuracy of the L-MMS is higher than that of the UAV photogrammetric point clouds. The tie points are extracted from the UAV imagery based on the well-known SIFT method, and then matched. The structure from motion (SfM) algorithm is applied to estimate the 3D object coordinates of the matched tie points. Rigid registration is carried out between the point clouds obtained from the L-MMS and the SfM. For each tie point extracted from the SfM point clouds, their corresponding neighbouring points are selected from the L-MMS point clouds, and then a plane is fitted and then a tie point was projected on the plane, and this is how the Lidar-based control points (LCPs) are calculated. The re-projection error of the analyses carried out on a test data sets of the Glian area in Iran show a half pixel size accuracy standing for a few centimetres range accuracy. Finally, a significant increasing of speed up in survey operations besides improving the spatial accuracy of the extracted LCPs are achieved. |
| Keywords: |
| Lidar-based Control Points, LiDAR Mobile Mapping, UAV photogrammetry, Sparse Bundle Adjustment, Aerial Triangulation |
| Status : Paper Accepted (Poster Presentation) |
