Abstract
Structure from motion (SFM) is a methodology for automatically reconstructing three-dimensional (3D) models from a series of two-dimensional (2D) images when there is no a priori knowledge of the camera location and direction. Modern unmanned aerial vehicles (UAV) now provide a low-cost means of obtaining aerial video footage of a point of interest. Unfortunately, raw video lacks the required information for SFM software, as it does not record exchangeable image file (EXIF) information for the frames. In this work, a solution is presented to modify aerial video so that it can be used for photogrammetry. The paper then examines how the field of view effects the quality of the reconstruction. The input is unstabilized, and distorted video footage obtained from a low-cost UAV which is then combined with an open-source SFM system to reconstruct a 3D model. This approach creates a high quality reconstruction by reducing the amount of unknown variables, such as focal length and sensor size, while increasing the data density. The experiments conducted examine the optical field of view settings to provide sufficient overlap without sacrificing image quality or exacerbating distortion. The system costs less than e1000, and the results show the ability to reproduce 3D models that are of centimeter-level accuracy. For verification, the results were compared against millimeter-level accurate models derived from laser scanning.
Highlights
The global market for unmanned aerial vehicles (UAV) is currently worth e5.4 billion and is expected to grow to e6.35 billion by 2018 [1]
The results show that distortion can affect the accuracy of the model, the increased field of view (FOV) makes it easier for Structure from motion (SFM) to generate a 3D model, as it furnishes a greater area in each image for keypoint detection
The processing time is highly dependent on machine configuration, this example demonstrates the fundamental efficiency of VisualSFM to process large quantities of video data
Summary
The global market for unmanned aerial vehicles (UAV) is currently worth e5.4 billion and is expected to grow to e6.35 billion by 2018 [1]. A significant area of expansion has been in the micro-UAV sector where units weigh less than 1 kg. Over the past five years, there has been a dramatic increase in options in micro-UAV models coupled with significant price reductions and notable capacity enhancements [2]. A UAV costing e500 may be equipped with accelerometers, magnetometers, barometers and global positioning system (GPS) locators [3]. These capabilities allow for automatic three-axis stabilization and relative direction control. A decade ago, such a system would only have been available as a high-end, bespoke system and would have been orders of magnitude more costly
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