Litcius/Paper detail

Particle size distribution (PSD) estimation using unmanned aerial vehicle (UAV) photogrammetry for rockfill shear strength characterization

Marco Arrieta, Zong‐Xian Zhang

2024Acta Geotechnica11 citationsDOIOpen Access PDF

Abstract

Abstract The strength of rockfills and waste materials is significantly influenced by their particle size distribution (PSD). For large waste rockfills, PSD is fundamental to determine the shear behavior. Traditionally, PSD for rockfill, used in materials like coarse-grained aggregates, has been obtained through physical sieving. However, the particle sizes in hard rockfills can vary significantly from small particles (< 20 cm diameter) to large blocks or boulders over 100 cm, with the maximum size limited by the in situ ground conditions and blasting performance. Essentially, the sieving process is impractical, considering the scale of the mine waste dumps and the time required. Therefore, in this study, a workflow using digital detection to estimate the PSD is presented, aiming to quantify the waste dump shear strength using Barton–Kjaernsli empirical criterion. PSD from UAV is validated using manual field measurements of individual boulders. The error for coarse characteristic size prediction ranges within ± 4 mm, and the increase in the data collection frequency, area covered, and resolution of fragmentation measurement for rockfills and waste dumps using UAV allows to improve the statistical reliability of the PSD and fragmentation measurement.

Topics & Concepts

PhotogrammetryParticle-size distributionCharacterization (materials science)Shear strength (soil)Shear (geology)GeologyRemote sensingComputer scienceEnvironmental scienceParticle sizePhysicsOpticsSoil waterPetrologyPaleontologySoil science3D Surveying and Cultural HeritageInfrastructure Maintenance and MonitoringRemote Sensing and LiDAR Applications