BIM FROM LASER CLOUDS AND FINITE ELEMENT ANALYSIS: COMBINING STRUCTURAL ANALYSIS AND GEOMETRIC COMPLEXITY

Abstract. This paper describes the use of BIM models derived from point clouds for structural simulation based on Finite Element Analysis (FEA). Although BIM interoperability has reached a significant level of maturity, the density of laser point clouds provides very detailed BIM models that cannot directly be used in FEA software. The rationalization of the BIM towards a new finite element model is not a simple reduction of the number of nodes. The interconnections between the different elements and their materials require a particular attention: BIM technology includes geometrical aspects and structural considerations that allow one to understand and replicate the constructive elements and their mutual interaction. The information must be accurately investigated to obtain a finite element model suitable for a complete and detailed structural analysis. The aim of this paper is to prove that a drastic reduction of the quality of the BIM model is not necessary. Geometric data encapsulated into dense point clouds can be taken into consideration also for finite element analysis.

[1]  Francesco Ubertini,et al.  Thermography investigation of Roman arcaelogical masonry , 2008 .

[2]  Jim Steel,et al.  Model interoperability in building information modelling , 2009, Software & Systems Modeling.

[3]  Les A. Piegl,et al.  The NURBS Book , 1995, Monographs in Visual Communication.

[4]  Daniela Oreni,et al.  Survey turned into HBIM: the restoration and the work involved concerning the Basilica di Collemaggio after the earthquake (L'Aquila) , 2014 .

[5]  Armin Gruen,et al.  Turning Images into 3-D Models ( Developments and performance analysis of image matching for detailed surface reconstruction of heritage objects ) , 2008 .

[6]  Ghang Lee,et al.  Specifying parametric building object behavior (BOB) for a building information modeling system , 2006 .

[7]  Paulo B. Lourenço,et al.  A review on flat-jack testing , 2000 .

[8]  Anna Osello Il futuro del disegno con il BIM per Ingegneri e Architetti / The Future of Drawing with BIM for Engineers and Architects , 2012 .

[9]  Luca Bertola,et al.  Beyond Crude 3D Models: From Point Clouds to Historical Building Information Modeling via NURBS , 2014, EuroMed.

[10]  L. Binda,et al.  Fiat-Jack Test: A slightly destructive technique for the diagnosis of brick and stone masonry structures/ Flachpressenprüfung: Eine zerstörungsarme Methode zur Untersuchung von Ziegel- und Natursteinmauenverk , 1999 .

[11]  G. Strang,et al.  An Analysis of the Finite Element Method , 1974 .

[12]  O. Zienkiewicz The Finite Element Method In Engineering Science , 1971 .

[13]  Daniela Oreni,et al.  Strategy for Integrated Surveying Techniques Finalized to Interpretive Models in a Byzantine Church, Mesopotam, Albania , 2014 .

[14]  Charles M. Eastman,et al.  BIM Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors , 2008 .

[15]  S. Fai,et al.  BUILDING INFORMATION MODELLING AND HERITAGE DOCUMENTATION , 2011 .

[16]  Ermanno G. Grinzato,et al.  Infrared and thermal testing for conservation of historic buildings , 2001 .

[17]  Les A. Piegl,et al.  Computing offsets of NURBS curves and surfaces , 1999, Comput. Aided Des..

[18]  Daniela Oreni,et al.  HBIM FOR CONSERVATION AND MANAGEMENT OF BUILT HERITAGE: TOWARDS A LIBRARY OF VAULTS AND WOODEN BEAN FLOORS , 2013 .