Informes de la Construcción, Vol 71, No 556 (2019)

Aplicación de un modelo Lean-BIM para la mejora de la productividad en redacción de proyectos de edificación


https://doi.org/10.3989/ic.67222

A. Latorre Uriz
Estudiante de doctorado, Departamento de Construcción, Instalaciones y Estructuras de la Escuela Técnica Superior de la Universidad de Navarra, España
orcid https://orcid.org/0000-0002-3679-7029

C. Sanz
Departamento de Construcción, Instalaciones y Estructuras de la Escuela Técnica Superior de la Universidad de Navarra, España
orcid https://orcid.org/0000-0001-6788-5315

B. Sánchez
Departamento de Construcción, Instalaciones y Estructuras de la Escuela Técnica Superior de la Universidad de Navarra, España
orcid https://orcid.org/0000-0001-6808-3314

Resumen


El presente trabajo propone un modelo para la mejora del rendimiento de la redacción de proyectos de edificación en BIM. La productividad del sector de la construcción es una materia que preocupa y genera debates acerca del modelo de producción adecuado para mejorar su rendimiento. Si se compara el nivel de productividad de la construcción con otros sectores, tales como la industria o el automóvil, resulta bajo, y la evolución de los últimos años evidencia un incremento de esta diferencia.

Se presenta un modelo que combina el uso de la filosofía Lean mediante la aplicación de Lean Construction, y la metodología BIM, fruto de una revisión bibliográfica y la investigación realizada por los autores. El modelo se testa en 6 casos de estudios, para posteriormente ser validado mediante técnicas cualitativas y cuantitativas.

Palabras clave


BIM; gestión; Lean Construction; productividad

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Referencias


(1) Bhatla, A., Leite, F. (2012). Integration Framework of BIM with the Last Planner System. En 20th Annual Conference of the International Group for Lean Construction, San Diego.

(2) Sacks, R., Koskela, L., Dave, B.A., & Owen, R. (2010). Interaction of lean and building information modeling in construction. Journal of construction engineering and management, 136(9): 968-980. https://doi.org/10.1061/(ASCE)CO.1943-7862.0000203

(3) Hamdi, O., Leite, F. (2012). BIM and Lean interactions from the BIM capability maturity model perspective: a case study. En 20th Annual Proceeding of the International Group for Lean onstruction, San Diego.

(4) Clemente, J., Cachadinha, N. (2013). BIM-Lean Synergies in the Management on MEP Works in Public Facilities of Intensive Use - a Case Study. En Annual Conference of the International Group for Lean Construction (pp. 751-759), Fortaleza.

(5) Latorre, A. (2015). Filosofía Lean en la construcción. Valencia: Universitat Politècnica de València. https://riunet.upv.es/handle/10251/50732

(6) Salmon, J.L. (2009). The Legal Revolution in Construction. Journal of Building Information Modeling (JBIM), (Spring): 18-19. Recuperado de https://www.brikbase.org/content/legal-revolution construction.

(7) Tauriainen, M., Marttinen, P., Dave, B., Koskela, L. (2016). The Effects of BIM and Lean Construction on Design Management Practices. Procedia Engineering, 164: 567-574. https://doi.org/10.1016/j.proeng.2016.11.659

(8) Mollasalehi, A. (2016). Development of an experimental waste framework based on BIM/lean concept in construction design. En 24th Annual Conference of the International Group for Lean Construction (pp. 193-202), Boston. Recuperado de http://usir.salford.ac.uk/43968/

(9) Nascimento, D.L. de M., Sotelino, E.D., Caiado, R.G.G., Ivson, P., Faria, P.S. (2017). Synergy between principles of lean thinking and BIM functionalities in interdisciplinarity of management in industrial plants. Journal of Lean Systems, 2(4): 80-105. Recuperado de http://ojs.sites.ufsc.br/index.php/lean/article/view/1758

(10) Fakhimi, A.H., Majrouhi Sardroud, J., Azhar, S. (2016). How Can Lean, IPD and BIM Work Together? En Proceedings of the 33rd ISARC (pp. 67-75), Auburn, AL, USA. https://doi.org/10.22260/ISARC2016/0009

(11) Zhang, X., Azhar, S., Nadeem, A., Khalfan, M. (2018). Using Building Information Modelling to achieve Lean principles by improving efficiency of work teams. International Journal of Construction Management, 18(4):293-300. https://doi.org/10.1080/15623599.2017.1382083

(12) Mandujano, M.G., Alarcón, L.F., Kunz, J., Mourgues, C. (2016). Identifying waste in virtual design and construction practice from a Lean Thinking perspective: A meta-analysis of the literature. Revista de la Construcción, 15(3): 107-118. https://doi.org/10.4067/S0718-915X2016000300011

(13) Alvarenga, T.W., da Silva, E.N., Mello, L.C.B. de B. (2017). BIM and Lean Construction: The Evolution Obstacle in the Brazilian Civil Construction Industry. Engineering, Technology & Applied Science Research, 7(5): 1904-1908. Recuperado de http://etasr.com/index.php/ETASR/article/view/1278

(14) Avila Díaz, J.O., Quintana Pulido, N. (2015). Simulación de Eventos Discretos y Líneas de Balance, Aplicadas al Mejoramiento del Proceso Constructivo del Edificio Universidad Ciudad PUJ. Bogotá: Pontificia Universidad Javeriana, Facultad de Ingeniería. Recuperado de https://repository.javeriana.edu.co/handle/10554/12693

(15) Dave, B., Kubler, S., Pikas, E., Holmström, J., Singh, V., Främling, K., Koskela, L. (29-31 July 2015). Intelligent Products: Shifting the Production Control Logic in Construction (With Lean and BIM). En 23th Annual Conference of the International Group for Lean Construction, Perth, Australia. Recuperado de https://aaltodoc.aalto.fi/handle/123456789/17643

(16) Rischmoller, L., Alarcón, L.F., Koskela, L. (2006). Improving Value Generation in the Design Process of Industrial Projects Using CAVT. Journal of Management in Engineering, 22(2): 52-60. https://doi.org/10.1061/(ASCE)0742-597X(2006)22:2(52)

(17) Khanzode, A., Fischer, M., Reed, D., Ballard, G. (2006). A guide to applying the principles of virtual design & construction (VDC) to the lean project delivery process. CIFE, Stanford University. Recuperado de https://stacks.stanford.edu/ file/druid:bc980bz5582/WP093.pdf

(18) Álvarez, M.Á., Bucero, A., Pampliega, C.J. (2017). Integrated project delivery, an alternative to the usual form of construction work in Spain = Métodos colaborativos, un cambio para la construcción en España. Building & Management, 1(3): 30-36. https://doi.org/10.20868/bma.2017.3.3656

(19) Galsworth, G.D. (1997). Visual systems: harnessing the power of the visual workplace. New York: American Management Association.

(20) Sacks, R., Dave, B., Koskela, L., Owen, R. (2009). Analysis framework for the interaction between lean construction and building information modeling. En 17th Annual Conference of the International Group for Lean Construction, National Pingtung University of Science and Technology, LCI-Taiwan and LCI-Asia, Taipei.

(21) Dave, B., Boddy, S., Koskela, L. (2013). Challenges and opportunities in implementing lean and BIM on an infrastructure project. En 21th Annual Conference of the International Group for Lean Construction, Fortaleza, Brazil. Recuperado de http://iglc.net/Papers/Details/888/pdf

(22) Oskouie, P., Gerber, D.J., Alves, T., Becerik-Gerber, B. (2012). Extending the interaction of building information modeling and lean construction. En Proceedings for the 20th Annual Conference of the International Group for Lean Construction. Recuperado de http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.705.3874&rep=rep1&type=pdf

(23) Kjartansdóttir, I.B. (2011). BIM Adoption in Iceland and Its Relation to Lean Construction. Reykjavík: Reykjavík University. Recuperado de https://skemman.is/bitstream/1946/10907/1/Ingibj%C3%B6rgBir aKj.Tilb%C3%BAi%C3%B0040112.pdf

(24) Dave, B. (2013). Developing a construction management system based on lean construction and building information modelling (Tesis doctoral). University of Salford.

(25) Dave, B., Koskela, L.J., Kiviniemi, A.O., Tzortzopoulos Fazenda, P. and Owen, R.L. (2013). Implementing lean in construction: Lean construction and BIM, Manual. London: CIRIA. Recuperado de http://usir.salford.ac.uk/28451/

(26) Olivares Belmar, K.G. (2017). Exploración de un marco de planificación LEAN-BIM: un sistema last planner y BIM basado en 2 casos de estudio. Universidad Andrés Bello. Recuperado de http://repositorio.unab.cl/xmlui/handle/ria/3524.

(27) Toledo, M., Olivares, K., González, V. (2016). Exploration of a Lean-BIM Planning Framework: A Last Planner System and BIM-Based Case Study, En 24th Annual Conference of the International Group for Lean Construction(pp. 3-12), Boston, MA, USA. Recuperado de https://iglcstorage.blob.core.windows.net/papers/attachment-bebfd63e-3f20-409b-9f85-dc73ad8bb5d8.pdf

(28) Tauriainen, M., Marttinen, P., Dave, B., Koskela, L. (2016). BIM and Lean Construction Change Design Management Practices. En Creative Construction Conference 2016 (pp. 668-673), Budapest. Recuperado de http://2016.creativeconstruction- conference.com/proceedings/CCC2016_104_Tauriainen.pdf

(29) Villa, V., Di Giuda, G.M., Giana, P.E., Tagliabue, L.C., Ciribini, A.L.C. (2017). Lean construction applied to a BIM process: how to control point attribution. En MEAT tender process, Tema: Technology, Engineering, Materials and Architecture. 3: 35-44.

(30) Saieg, P., Sotelino, E.D., Nascimento, D., Caiado, R.G.G. (2018). Interactions of Building Information Modeling, Lean and Sustainability on the Architectural, Engineering and Construction industry: A systematic review. Journal of Cleaner Production, 174: 788-806. https://doi.org/10.1016/j.jclepro.2017.11.030




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