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Digital twin-oriented generation of structural data and models with LiDAR scan point clouds

Abdulrrahman Algadi, Berkin Uluutku, Jacob Anthony Cano, Lori C. Walters, Inad Alqurashi, Furkan Luleci, F. Necati Çatbaş

2025Journal of Infrastructure Preservation and Resilience6 citationsDOIOpen Access PDF

Abstract

Accurate geometric and structural data are essential for the development of digital twins for existing infrastructure systems, particularly in the context of building resilience. Many older or poorly documented structures either lack as-built plans or exhibit deviations from the original design due to construction inconsistencies, undocumented modifications, or repairs. As a result, capturing current structural conditions becomes a necessary first step for generating reliable analytical models, conducting assessments, and enabling long-term infrastructure monitoring. In this study, we evaluate the effectiveness of LiDAR-derived point clouds in generating finite element models (FEM) of a infrastructure, using a stadium as a case study. We compare models built from structural plans and point cloud data against on-site measurements in terms of geometry, dimensions, joint displacements, and support reactions. Our results show that point cloud-based models consistently outperform plan-based models in replicating actual geometric and structural behavior. These findings demonstrate that point cloud scanning can serve as a reliable, efficient, and scalable method for generating digital structural models. This capability is especially valuable for building resilient infrastructure systems, where timely and accurate digital representations are needed for performance tracking, diagnostics, and model updating over time. The study highlights the practical application of point cloud data for digital twin development in large-scale, load-bearing public structures.

Topics & Concepts

Point cloudComputer scienceContext (archaeology)Cloud computingPoint (geometry)Data miningLidarScalabilityStadiumData structureRemote sensingData modelingData collectionKey (lock)Big dataDistributed computingSolid modelingJoint (building)Data scienceReal-time computingAlgorithmDigital EarthLaser scanningVisualizationGeometric data analysisDigital elevation modelDigital dataStructural systemSystems engineering3D Surveying and Cultural HeritageRemote Sensing and LiDAR ApplicationsImage Processing and 3D Reconstruction
Digital twin-oriented generation of structural data and models with LiDAR scan point clouds | Litcius