Abstract
Abstract. The demand of aerial photogrammetry has increased recently especially after the development of unmanned aerial vehicle system. This study explores the use of different UAV systems which comprised of conventional UAV, UAV RTK and UAV Lidar systems. This study also comprises of three experiments. The first experiment involved the mapping of Lingkaran Ilmu, UTM by using fixed wing Ebee UAV with 20megapixel digital camera. This first experiment used conventional UAV. The second experiment involved the fixed wing Ebee UAV equipped with real time kinematic (RTK) system on-board for mapping the study area. The last experiment is the used of octacopter UAV equipped with Riegl Lidar system for mapping the study area. The study area for all experiments is located in Lingkaran Ilmu of main campus Universiti Teknologi Malaysia, Johor Bahru, Johor, Malaysia. Ebee UAV and Ebee RTK UAV are flown in autonomous mode at 200 meters altitude. Both systems are used to capture high resolution aerial photo of the study area. Riegl UAV Lidar system is flown at 100 meter altitude for capture high resolution and point cloud data. GPS rapid static method was used for establishing ground control points (GCP) and check point (CP) in the study area. Three different GCP configuration was applied in geometry correction. Meanwhile, CPs is used for accuracy assessment where RMSE equation was employed. The 15CGP configuration produce more accurate result compared to another. Where, the planimetric RMSE values of Ebee UAV, Ebee RTK UAV and Riegl UAV Lidar are 0.21 m, 0.09 m and 0.15 m respectively. For height RMSE values for Ebbe, Ebee RTK and Octacopter Lidar are 0.34 m, 0.13 m and 0.07 m respectively. In conclusion, Ebee RTK UAV is identified as a system that can produce an accurate digital orthophoto compared to other systems while Riegl UAV Lidar system can produce highest accurate DEM and DTM compared to other systems in 15GCP configuration.
Highlights
1.1 Unmanned Aerial Vehicle (UAV)Unmanned aerial vehicle (UAV) is known as drone
The design, research and production of UAV platform are suitable in aerial photogrammetry
The main aim of this study is to investigate and evaluate the capabilities of three different UAV system for producing photogrammtry products based on the different ground control points (GCP) configuration
Summary
Unmanned aerial vehicle (UAV) is known as drone. It is an aircraft that does not require a pilot to operate it. The performance of UAV has improved from year to year. This development has provides wider opportunities within the photogrammetry field in obtaining digital images for large scale map production. Aerial image is the most reliable data for mapping. It shows the images of the actual situation and the information of the ground which can be interpreted. For UAV, it can be handled by one person to operate the remote control and cost efficient. There are two types of UAV which are known as fixed wing and rotory wing
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