CLASH DETECTION BETWEEN BIM PROJECT SPECIALTIES: A PRACTICAL CASE

Authors

  • Marcio Presente de Souza Universidade de São Paulo
  • Beatriz Campos Fialho Universidade de São Paulo
  • Márcio Minto Fabricio Universidade de São Paulo

DOI:

https://doi.org/10.29327/sbqp2021.438092

Keywords:

Federated Model, Design Disciplines, BIM, Revit

Abstract

BIM has significantly impacted work processes in the Architecture, Engineering, Construction and Operation (AECO) industry. Specifically in the design area, new technological and procedural resources provided by BIM facilitate the process of collaboration between multidisciplinary teams and improve the quality of projects. In this context, the integration between disciplines occurs through the development of a federated BIM model, capable of combining different specialties into a single model. The purpose of this article is to demonstrate the interference verification process in the BIM environment with the help of a federated model. For this, it presents a practical case of BIM modeling of CAD-based designs of an existing building. The methodological procedures are divided into four stages: (i) Survey of original projects and recognition visit; (ii) modeling of disciplines; (iii) federation and interference verification; (iv) comparative analyses. Results obtained suggest that part of the design conflicts of the existing building were resolved during the execution of the work, however, they would be easily identifiable by the use of interference verification in a BIM environment. In addition, fundamental dimensions associated with BIM could be exercised, demonstrating the potential of this new approach for project coordination and extraction of relevant geometric and non-geometric information.

References

ABDI. Agência Brasileira de Desenvolvimento Industrial. Coletânea Guias BIM. Volumes 1-6.ABDI-MDIC, 2017.

BIM INITIATIVE. BIM Dictionary - Federated Model, 2019. Disponível em:https://bimdictionary.com/en/federated-model/1. Acesso em: 10 mai. 2021.

CRESPO, C. C.; RUSCHEL, R. C. Ferramentas BIM: um desafio para a melhoria no ciclo de vidado projeto. In: Encontro de Tecnologia de Informação e Comunicação na Construção Civil,3., 2007. Anais… Porto Alegre: ANTAC, 2007.

DE SOUZA, M. P.; FIALHO, B. C.; FERREIRA, R. C.; FABRICIO, M. M.; CODINHOTO, R. Modellingand coordination of building design: an experience of BIM learning/upskilling. ArchitecturalEngineering and Design Management, v. Online, p. 1-18, 2021.http://dx.doi.org/10.1080/17452007.2021.1970506FISCHER, M.; ASHCRAFT, H.; REED, D.; KHANZODE, A. Integrating Project Delivery. Hoboken:Wiley, 2017.

ISO. ISO/DIS 19650-1 Organization of information about construction works — Informationmanagement using building information modelling — Part 1: Concepts and Principles. TheInternational Organization for Standardization (ISO) and Draft International Standard (DIS), v.2018, p. i–32, 2018a.

ISO. ISO/DIS 19650-1 Organization of information about construction works — Informationmanagement using building information modelling — Part 2: Delivery phase of the assets. TheInternational Organization for Standardization (ISO) and Draft International Standard (DIS), v.2018, p. i–29, 2018b.

KIRBY, L.; KRYGIEL, E.; KIM, M. Mastering Autodesk Revit 2018. Indianapolis: John Wiley & Sons,2018.

LEITE, F. L. BIM for Design Coordination: A Virtual Design and Construction Guide for Designers,General Contractors, and MEP Subcontractors. 1. ed. Hoboken: Wiley & Sons, 2020.

ORAEE, M.; HOSSEINI, R. M; EDWARDS, D. J.; LI, H.; PAPADONIKOLAKI, E.; CAO, D.

Collaboration barriers in BIM-based construction networks: A conceptual model. InternationalJournal of Project Management, v. 37, n.6, August 2019, p. 839–854, 2019.https://doi.org/10.1016/j.ijproman.2019.05.004PÄRN, E. A.; EDWARDS, D. J.; SING, M. C. P. Origins and probabilities of MEP and structuraldesign clashes within a federated BIM model. Automation in Construction, v. 85, n. December2016, p. 209–219, 2018. https://doi.org/10.1016/j.autcon.2017.09.010SACKS, R. et al. BIM Handbook: A Guide to Building Information Modeling for Owners,Managers, Designers, Engineers and Contractors. 3. ed. New Jersey: John Wiley & Sons, 2018.

SUCCAR, B.; KASSEM, M. Macro-BIM adoption: Conceptual structures. Automation inConstruction, v. 57, p. 64–79, 2015. https://doi.org/10.1016/j.autcon.2015.04.018SOLIHIN, W.; EASTMAN, C.; LEE, Y. C. A framework for fully integrated building informationmodels in a federated environment. Advanced Engineering Informatics, v. 30, n. 2, p. 168–189, 2016. https://doi.org/10.1016/j.aei.2016.02.007

Published

2021-11-19

How to Cite

Presente de Souza, M. ., Campos Fialho, B. ., & Minto Fabricio, M. . (2021). CLASH DETECTION BETWEEN BIM PROJECT SPECIALTIES: A PRACTICAL CASE. SIMPÓSIO BRASILEIRO DE QUALIDADE DE PROJETO DO AMBIENTE CONSTRUÍDO, 7, 1–10. https://doi.org/10.29327/sbqp2021.438092

Issue

Section

Inovações tecnológicas e de informação no desenvolvimento do projeto

Similar Articles

1 2 3 4 5 6 7 8 9 10 > >> 

You may also start an advanced similarity search for this article.