Abstract
In the last few years, Unmanned Aerial Vehicles (UAVs) equipped with compact digital cameras, have become a cheap and efficient alternative to classic aerial photogrammetry and close-range photogrammetry. Low-altitude photogrammetry has great potential not only in the development of orthophoto maps but is also increasingly used in surveying and rapid mapping. This paper presents a practical aspect of the application of the custom homemade low-cost UAV, equipped with an action camera, to obtain images from low altitudes and develop a digital elevation model of the excavation. The conducted analyses examine the possibilities of using low-cost UAVs to deliver useful photogrammetric products. The experiments were carried out on a closed excavation in the town of Mince (north-eastern Poland). The flight over the examined area was carried out autonomously. A photogrammetric network was designed, and the reference areas in the mine were measured using the Global Navigation Satellite System-Real Time Kinematic (GNSS-RTK) method to perform accuracy analyses of the excavation 3D model. Representation of the created numerical terrain model was a dense point cloud. The average height difference between the generated dense point cloud and the reference model was within the range of 0.01–0.13 m. The difference between the volume of the excavation measured by the GNSS kinematic method and the volume measured on the basis of a dense point cloud was less than 1%. The obtained results show that the application of the low-cost UAV equipped with an action camera with a wide-angle lens, allows for obtaining high-accuracy images comparable to classic, compact digital cameras.
Highlights
The use of Unmanned Aerial Vehicles (UAV) equipped with high-resolution video cameras for photogrammetric surveying and 3D modelling has recently become increasingly popular
The use of multi-camera high-resolution video sets in UAV photogrammetry, offers a new range of application in many fields of research related to 3D modelling, production of high-resolution Digital Surface Models (DSMs) and orthophotos
The accuracy of DSMs developed based on the UAV photogrammetry, is determined by many factors such as image quality, flight altitude, weather conditions, camera orientation as well as the number and distribution of Ground Control Points (GCPs) [10,11]
Summary
The use of Unmanned Aerial Vehicles (UAV) equipped with high-resolution video cameras for photogrammetric surveying and 3D modelling has recently become increasingly popular. The use of multi-camera high-resolution video sets in UAV photogrammetry, offers a new range of application in many fields of research related to 3D modelling, production of high-resolution Digital Surface Models (DSMs) and orthophotos. The potential of this type of solution can be found, especially in mining [1,2,3], archeology [4], 3D modelling in an open-pit mine [5,6], 3D mapping, [7], forestry and agricultural mapping [8,9]. The use of technology of imaging from a low altitude enables the non-invasive development of accurate 3D models of excavations and conducting accurate and detailed analyses [2,3,7,9]
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