UAV Bridge Inspection through Evaluated 3D Reconstructions

Abstract

Imagery-based, three-dimensional (3D) reconstruction from Unmanned Aerial Vehicles (UAVs) holds the potential to provide safer, more economical, and less disruptive bridge inspection. In support of those efforts, this paper proposes a process using an imagery-based point cloud. First, a bridge inspection procedure is introduced, including data acquisition, 3D reconstruction, data quality evaluation, and subsequent damage detection. Next, evaluation mechanisms are proposed including checking data coverage, analysing points distribution, assessing outlier noise, and measuring geometric accuracy. In this final aspect, the “Guide to the Expression of Uncertainty in Measurement” was used. The overall approach is illustrated in the form of a case study with a low-cost UAV. Areas of particular coverage difficulty involved slim features such as railings, where obtaining sufficient features for image matching proved challenging. Shadowing and large tilt angles hid or weakened texturing surfaces, which also interfered with the matching process.