Dezembro 2020 vol. 8 num. 4 - XXIV International Conference of the Iberoamerican Society of Digital Graphics

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Standardization of Airport Architectural Design Projects BIM-based for Code Checking

Standardization of Airport Architectural Design Projects BIM-based for Code Checking

Santos, Ítalo Guedes dos ; Andrade, Max Lira Veras Xavier de ;

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This paper addresses the use of BIM for code verification and automatic validation of the Architectural Design of Airports (ADA). In Brazil, the evaluation and approval of ADA are carried out by INFRAERO. Currently, designs are evaluated manually, resulting in errors and long evaluation time. To deal with this problem, a conceptual framework for automated ADA assessment with Code Checking is proposed. The method used was Design Science Research, with the proposal of an artifact. The partial results show the importance of establishing protocols for BIM modeling, based on IFC as an important tool for automated assessment with code checking.

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Palavras-chave: Airports, Architectural Design of Airport, Building Information Modeling, Code Checking, IFC,

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DOI: 10.5151/sigradi2020-68

Referências bibliográficas
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  • [3] Borrmann, A.; Köning, M.; Koch, C.; Beetz, J. (Eds.) Building Information Modeling: Technology Foundations and Industry Practice. 1st. edn. Springer, Cham, pp. 81-126 (2018).
  • [4] BuildingSMART (2013). Construction operations building information exchange, MVD definition for IFC
  • [5] Eastman, C., Lee, J., Jeong, Y., Lee, J. (2009). Automatic rule- based checking of building designs. Automation in Construction, v.18, n.8, p.1011-1033.
  • [6] Guedes, Ítalo; Andrade, Max. (2019). Automatic Rule-Based Checking for the Approval of Building Architectural Designs of Airport Passenger Terminals based on BIM. Proceedings of the 37th eCAADe and 23rd SIGraDi Conference - Volume 2, University of Porto, Porto, Portugal, 11-13, 333-338.
  • [7] ISO - International Organization For Standardization (2018). ISO 16739-1: 2018 - Industry Foundation Classes (IFC) for data sharing in the construction and facility management industries.
  • [8] Nawari, O.N. (2018). Building information modeling: automated code checking and compliance processes (1th ed.). CRC Press, Boca Raton.
  • [9] Sacks, R., Eastman, C., Lee, G., Teicholz, P. (2018). BIM Handbook: a Guide to Building Information Modeling for Owners, Managers, Designers, Engineers, and Contractors. (3th. ed). New Jersey: John Wiley & Sons.
  • [10] Solihim, W.; Eastman, C. (2015). Classification of rules for automated BIM rule checking development. Automation in construction, 53, pp.69-82.
  • [11] Steinmann, R. (2018). IFC Certification of BIM Software. In: Borrmann, A.; Köning, M.; Koch, C.; Beetz, J. (Eds.) Building Information Modeling: Technology Foundations and Industry Practice. 1st. edn. Springer, Cham, pp. 139-154
  • [12] Superintendência de Empreendimentos de Engenharia - DEEP Gerência de Planejamento de Engenharia – EPPL (2006). Manual de Critérios e Condicionantes de Planejamento Aeroportuário.
Como citar:

Santos, Ítalo Guedes dos; Andrade, Max Lira Veras Xavier de; "Standardization of Airport Architectural Design Projects BIM-based for Code Checking", p. 490-498 . In: Congreso SIGraDi 2020. São Paulo: Blucher, 2020.
ISSN 2318-6968, DOI 10.5151/sigradi2020-68

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