Adoção de BIM e Lean Construction: um processo para implantação da Engenharia do Conhecimento
DOI:
https://doi.org/10.46421/sbtic.v3i00.560Keywords:
BIM, Construção enxuta, Gerenciamento da informação, Engenharia do conhecimentoAbstract
A adoção do BIM torna o processo eficiente e mais produtivo, aumentando sua qualidade e gerando informações precisas, enquanto a filosofia do Lean Construction parte de princípios para redução de desperdícios de materiais e serviços desnecessários com melhoria de produtividade. Tem-se por objetivo prospectar a melhoria da tomada de decisão com as interações do BIM com Lean a partir dos conceitos de engenharia do conhecimento. A pesquisa consiste em uma revisão sistemática de literatura. As interações permitem a gestão estratégica da informação, viabilizando orientação do processo de engenharia de informação que uma vez ajustada conduz a ganhos originários para a gestão do conhecimento.
Downloads
References
ÁLVARES, J. S.; COSTA, D. B. Construction progress monitoring using unmanned aerial system and 4D BIM. Proceedings of the 27th Annual Conference of the International Group for Lean Construction, IGLC 2019, p. 1445–1456, 2019.
BALLARD, H. G. The Last Planner System of Production Control. 2000. Ph.D. Thesis. Scheel of Civil Engineering. Faculty of Engineering. The University of Birmingham. Birmingham, 2000.
BOTON, C.; PITTI, Y.; FORGUES, D.; IORDANOVA, I. Investigating the challenges related to combining BIM and Last Planner System on construction sites. Frontiers of Engineering Management, 2020.
DAVE, B.; KOSKELA, L. J. VisiLean: Designing a production management system with lean and BIM. Proceedings of the 19nd Annual Conference of the International Group for Lean Construction: Understanding and Improving Project Based Production, IGLC 2011.
DAVE, B.; KUBLER, S.; FRÄMLING, K.; KOSKELA, L. Addressing information flow in lean production management and control in construction. Proceedings of the 22nd Annual Conference of the International Group for Lean Construction: Understanding and Improving Project Based Production, IGLC 2014, p. 581–592, 2014.
DAVE, B.; KUBLER, S.; FRAMLING, K.; KOSKELA, L. Opportunities for enhanced lean construction management using Internet of Things standards. Automation in Construction, v.61, p. 86-97. 2016
EASTMAN, C.; TEICHOLZ, P.; SACKS, R.; LISTON, K. BIM Handbook: a guide to building information modeling for owners, managers, designers, engineers and contractors. 2. ed. Nova Iorque: John Wiley & Sons, 2011.
FREITAS, M. C. D; ODORCZYK, R. S.; MENDES JR. R.; FREDERICO, G. F.; CÓRDOVA, F.; DURAN, C. Theoretical aspects of the information and knowledge engineering. 2016, Proceedings of IEEE-ICCCC2016, 6th International Conference on Computers Communications and Control, 2016.
GIOVANNY, O.; ALBERTO, S. J.; YERSON, G. H. P. BrIM 5D models and Lean Construction for planning work activities in reinforced concrete bridges Modelos BrIM 5D y Lean Construction para planificar actividades de. Revista Faculdad de Ingeniaría, v. 26, n. 46, p. 39–50, 2017
GUREVICH, U.; SACKS, R. Examination of the effects of a KanBIM production control system on subcontractors’ task selections in interior works. Automation in Construction, v. 37, p. 81–87, 2014. Elsevier B.V. Disponível em: http://dx.doi.org/10.1016/j.autcon.2013.10.003
IBARRA, J. V.; FORMOSO, C. T.; LIMA, C.; MOURÃO, A.; SAGGIN, A. Model for integrated production and quality control: Implementation and testing using commercial software applications. IGLC 2016 – Proceedings of the 24th Annual Conference of the International Group for Lean Construction, p. 73–82, 2016.
KOSEOGLU, O.; NURTAN-GUNES, E. T. Mobile BIM implementation and lean interaction on construction site: A case study of a complex airport project. Engineering, Construction and Architectural Management, v. 25, n. 10, p. 1298–1321, 2018.
KOSKELA, L. Application of the New Production Philosophy to Construction Technical Report, 1992
LAINE, E.; ALHAVA, O.; KIVINIEMI, A. Improving Built-In Quality by BIM Based Visual Management Building Information Modeling (BIM) and Lean. IGLC 2014 Proceedings of the 22th Annual Conference of the International Group for Lean Construction p. 945–956, 2014.
MAHALINGAM, A.; YADAV, A. K.; VARAPRASAD, J. Investigating the role of lean practices in enabling BIM adoption: Evidence from two Indian cases. Journal of Construction Engineering and Management (2015) 141(7), v. 141, n. 7, p. 1–11, 2015.
MATTA, G.; HERRERA, R. F.; BALADRÓN, C.; GIMÉNEZ, Z.; ALARCÓN, L. F. Using BIM-Based sheets as a visual management tool for on-site instructions: A case study. IGLC 2018 - Proceedings of the 26th Annual Conference of the International Group for Lean Construction: Evolving Lean Construction Towards Mature Production Management Across Cultures and Frontiers, v. 1, p. 144–154, 2018.
MATTHEWS, J.; LOVE, P. E.D.; HEINEMANN, S.; CHANDLER, R.; RUMSEY, C.; OLATUNJ, O. Real time progress management: Reengineering processes for cloud-based BIM in construction. Automation in Construction, v.58, p. 38-47, jul. 2015. DOI: http://dx.doi.org/10.1016/j.autcon.2015.07.004
NASCIMENTO, D. L. M.; SOTELINO, E. D.; CAIADO, R. G. G.; IVSON, P.; FARIA, P. S. Sinergia entre Principios do Lean Thinking e Funcionalidade de BIM na Interdisciplinaridade de Gestão em Plantas Industriais. Journal of lean systems, v.2, n. 4, p 83-109, 2017.
PMI, P. DA P. DO. O Alto Custo do Baixo Desempenho., p. 1–22, 2013.
RATAJCZAK, J.; RIEDL, M.; MATT, D. T. BIM-based and AR application combined with location-based management system for the improvement of the construction performance. Buildings, v. 9, n. 5, 2019.
REINBOLD, A.; SEPPÄNEN, O.; PELTOKORPI, A.; SINGH, V.; DROR, E. Integrating indoor positioning systems and BIM to improve situational awareness. Proceedings of the 27th Annual Conference of the International Group for Lean Construction, IGLC 2019, p. 1141–1150, 2019.
SACKS, R.; BARAK, R.; BELACIANO, B.; GUREVICH, U.; PIKAS, E. Field tests of the KanBIM lean production management system. Proceedings of the 19th Annual Conference of the International Group for Lean Construction 2011, IGLC 2011, p. 465–476, 2011.
SACKS, R.; BARAK, R.; BELACIANO, B.; GUREVICH, U.; PIKAS, E. KanBIM workflow management system: Prototype implementation and field testing. Lean Construction Journal, v. 2013, n. 2012, p. 19–35, 2013.
SACKS, R.; RADOSAVLJEVIC, M.; BARAK, R. Requirements for Building Information Modeling based Lean Production Management Systems for construction. Automation in Construction, v. 19, n. 5 p. 641-655, 2010.
TEIXEIRA, A. V.; FREITAS, M. C. D.; LAURINDO, A. M. Engineering Information: Conceptual Elements Related Information Management and Information Systems. EDULEARN, 14., 2014. Proceedings, p. 6909-6915.
TEZEL, A.; AZIZ, Z. From conventional to it based visual management: A conceptual discussion for lean construction. Journal of Information Technology in Construction, v. 22, p. 220–246, 2017.
VON HEYL, J.; DEMIR, S. Digitizing Lean Construction With Building Information Modeling. Proceedings of the 27th Annual Conference of the International Group for Lean Construction (IGLC), p. 843–852, 2019. DOI: http://iglc.net/Papers/Details/1725
VRIJHOEF, R.; DIJKSTRA, J. T.; KOUTAMANIS, A. Modelling and simulating time use of site workers with 4d BIM. IGLC 2018 - Proceedings of the 26th Annual Conference of the International Group for Lean Construction: Evolving Lean Construction Towards Mature Production Management Across Cultures and Frontiers, v. 1, p. 155–165, 2018.
Published
How to Cite
Issue
Section
License
Copyright (c) 2021 SIMPÓSIO BRASILEIRO DE TECNOLOGIA DA INFORMAÇÃO E COMUNICAÇÃO NA CONSTRUÇÃO
This work is licensed under a Creative Commons Attribution 4.0 International License.
Adota-se Atribuição 4.0 Internacional (CC BY 4.0). Ver detalhamento em https://creativecommons.org/licenses/by/4.0/deed.pt_BR