Abstract

The rapid increase of low-cost consumer-grade to enterprise-level unmanned aerial systems (UASs) has resulted in the exponential use of these systems in many applications. Structure from motion with multiview stereo (SfM-MVS) photogrammetry is now the baseline for the development of orthoimages and 3D surfaces (e.g., digital elevation models). The horizontal and vertical positional accuracies (x, y and z) of these products in general, rely heavily on the use of ground control points (GCPs). However, for many applications, the use of GCPs is not possible. Here we tested 14 UASs to assess the positional and within-model accuracy of SfM-MVS reconstructions of low-relief landscapes without GCPs ranging from consumer to enterprise-grade vertical takeoff and landing (VTOL) platforms. We found that high positional accuracy is not necessarily related to the platform cost or grade, rather the most important aspect is the use of post-processing kinetic (PPK) or real-time kinetic (RTK) solutions for geotagging the photographs. SfM-MVS products generated from UAS with onboard geotagging, regardless of grade, results in greater positional accuracies and lower within-model errors. We conclude that where repeatability and adherence to a high level of accuracy are needed, only RTK and PPK systems should be used without GCPs.

Highlights

  • The recent rapid development of relatively low-cost (

  • Link between the base andcontrollers the global navigation satellite systems (GNSS)(e.g., receiver to geotag photographs with an accurate our study provides a large number of entities, who use location in real-time

  • A clear distinction in horizontal and vertical accuracy was whether the UAS photographs were tagged with a post-processing kinematic (PPK)/real-time kinematic (RTK) solution or not, regardless of the flight controller’s use of RTK for navigation

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Summary

Introduction

The recent rapid development of relatively low-cost (

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Conclusion

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