Hower, Madeline2024-05-082024-05-082024https://hdl.handle.net/10919/118919Widespread emerging UAV technology has resulted in an increased use of drones across a variety of fields to complete mapping and surveying evaluations. However, accessible guidelines providing information on the effects parameter choices and environmental considerations have on orthomosaic quality and accuracy do not exist. To improve the understanding of the various influences on mapping results, this study evaluates how image overlap ratio, mapping speed, and lighting conditions affect spatial accuracy and development time for resulting orthomosaic images. This evaluation was done by conducting mapping missions with several parameter variations over a homogeneous area and a non-homogeneous area. The accuracy was assessed by calculating the root mean square error (RMSE). The results suggest that effects of mapping parameters differ between homogeneous and non-homogeneous areas. For a homogeneous location, the most accurate conditions were obtained by conducting mapping on a clear weather day, with a 60/80 overlap, at a mapping speed of 3 m/s. For the non-homogeneous location, the most accurate conditions were conducting mapping on a cloudy weather day, with a 70/80 overlap, at a mapping speed of 5m/s. A correlation was also found between lighting conditions and image development time and between image overlap and image development time, where clear day weather resulted in a lower processing time and reducing front overlap had the greatest reduction in processing time.application/pdfenCreative Commons Attribution 4.0 InternationalUASPhotogrammetryMappingMultispectral ImagingMaster's project