Headframe modelling accuracy for finite element method analysis purposes

Damian Marian Biel, Tomasz Lipecki


Nowadays, the growing popularity of terrestrial laser scanners (TLS) allows to obtain a point cloud of many industrial objects along with classic surveying. However, the quality and model’s accuracy in comparison to a real shape seem to be a question, that must be further researched. It is crucial especially for Finite Element Method (FEM) analysis, which, being a part of technical design, estimate the values of construction’s dislocation and deformation. The article describes objects such as headgear with steel support and 4-post headframe with steel sheers. Both supports and sheers were modelled basing on point clouds. All the models were compared to the point cloud. The differences in models’ shape were calculated and the maximal values were determined. The results’ usefulness in FEM analysis was described.


3D Modelling; TLS; headgear; headframe; finite element method

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Campana, S., Sordini, M., and Rizzi, A. (2009). 3D modeling of a romanesque church in Tuscany: archaeological aims and geomatics techniques. International Archives of Photogrametry, Remote Sensing, and Spatial Information Sciences, 38-5/W1.

Cloud Compare user manual (2015). http://www.danielgm.net/cc/documentation.html. edit 2.6.1.

Cwiakała, P. and Jabłonski, M. (2016). Pomiar inwentaryzacyjny wiezy szybowej przy uzyciu techniki skanowania laserowego. Wiadomosci Górnicze, 67(2):154–160.

Korumaz, M., Betti, M., Conti, A., Tucci, G., Bartoli, G., Bonora, V., Korumaz, A. G., and Fiorini, L. (2017). An integrated Terrestrial Laser Scanner (TLS), Deviation Analysis (DA) and Finite Element (FE) approach for health assessment of historical structures. a minaret case study. Engineering Structures, 153:224–238, doi:doi.org/10.1016/j.engstruct.2017.10.026.

Lipecki, T., Jaskowski, W., Matwij, W., and Skoblinski, W. (2017). Zastosowanie skanera Faro Focus X330 w ocenie pionowosci komina o wysokosci 220 m (Use of the laser scanner Faro Focus X330 in the assessment of the verticality of the chimney with a height of 220 m). Przeglad Górniczy, 73(6):44–53.

Muszynski, Z. and Milczarek, W. (2017). Application of terrestrial laser scanning to study the geometry of slender objects. In IOP Conference Series: Earth and Environmental Science, volume 95, page 042069. IOP Publishing. doi:10.1088/1755-1315/95/4/042069.

Pandžic, J., Pejic, M., Božic, B., and Eric, V. (2016). Tls in determining geometry of a tall structure. In Engineering Geodesy for Construction Works, Industry and Research, Proceedings of the International Symposium on Engineering Geodesy, pages 279–290.

DOI: http://dx.doi.org/10.2478/rgg-2018-0010


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