Seven Dimensions of a Construction Project with the Building Information Modeling Methodology
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Jan 2, 2017
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Abstract
Construction projects currently present many errors and setbacks due to a lack of planning and control during the life cycle, so a virtual change beyond the 3d is necessary, with a multidimensional method where the real construction process is imitated by centralizing the information in a single model. The BIM methodology for the management of construction projects is an alternative that allows the reduction of uncertainty In this research a simple model of a one-story house will be developed as a case study, based on the seven dimensions (Idea, Sketch, 3D Visualization, Timing, Cost, Simulation of Energy Behavior and Sustainability and Life Cycle Management of a Construction Project which allows to have less uncertainty and help with decisions regarding the project.
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How to Cite
González Villamil, W. R., & Lesmes Fabian, C. A. (2017). Seven Dimensions of a Construction Project with the Building Information Modeling Methodology. L’esprit Ingénieux, 8(1). Retrieved from http://revistas.ustatunja.edu.co/index.php/lingenieux/article/view/1659
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Artículos L´esprit Ingenieux Vol.8-1
References
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Ocampo, J. G. (2015). La Gerencia Bim Como Sistema Bim As the Management System. Revista Gerencia Tecnológica Informática, 14(38), 17–29. Recuperado de http://revistas.uis.edu.co/index.php/ revistagti/article/view/4868/5668
Lu, Y., Wu, Z., Chang, R., & Li, Y. (2017). Building Information Modeling (BIM) for green buildings: A critical review and future directions. Revista Automation in Construction, 83(August), 134–148. https://www.sciencedirect.com/science/ article/pii/S092658051730095X
Wong, J. K. W., & Zhou, J. (2015). Enhancing environmental sustainability over building life cycles through green BIM. Revista Automation in Construc tion, 57, 156–165. http://hdl.handle. net/10397/17663
Nshassi, A., & AbuHamra, L. (2016). An investigation of building information modelling functions in the Palestinian construction industry. Revista Ingenieria De Construccion, 31(2), 127–138.
Lopez Filed, F. (2017). Ilustración eadic formación y consultoría. [Figura]. Recuperado de http://www.eadic.com/ ingenieria/ arquitectura /
Gonzalez, R., (junio,2016) Retos de la adopción de BIM en los proyectos de Infraestructura lineal: El reto de implementar BIM en proyectos de infraestructura .En E. Juan Antonio Santamera (presidente) jornada llevada a cabo en I jornada BIM colegio de caminos, canales y puertos jornada BIM el futuro de las infraestructuras, Madrid España.
Chu, M., Matthews, J., & Love, P. E. D. (2018). Integrating mobile Building Information Modelling and Augmented Reality systems: An experimental study. Revista Automation in Construction, 85(October 2017), 305–316. https:// www.sciencedirect.com/science/article/ pii/S0926580517301218
Drury, B., Bazjanac, V., & Crawley, D. B. (1997). The Implementation of Industry Foundation Classes in Simulation Tools for the Building Industry. University of California. Recuperado de https://escholarship.org/uc/item/76c6z6g4
Building SMART International home of openBim. (2017). IFC Introduction. Recuperado de https://www.Building smart.org/about/what-is-openbim/ifc -introduction/
Dlubal Software. (2018). Planificación eficiente con BIM). Recuperado de https://www.dlubal.com/es/soluciones/ areas-de-aplicacion/planificacion-orientada-a-bim/ que-es-el-bim
Ding, L., Li, K., Zhou, Y., & Love, P. E. D. (2017). An IFC-inspection process model for infrastructure projects: Enabling real-time quality monitoring and control. Revista Automation in Construction, 84(April), 96–110. https://www.sciencedirect.com/science/article/pii/ S0926580517303783
Vanlande, R., Nicolle, C., & Cruz, C. (2008). IFC and building lifecycle management. Revista Automation in Construction, 18(1), 70–78. https:// www.sciencedirect.com/science/ article/pii/S0926580508000800
García Fernández, M. (2017, Junio de 20176). Dimensiones BIM e l alcance del programa. Recuperado de https:// online.revitalacarta.com/2017/06/06/ dimensiones-bim-alcance-del-programa/
Sánchez Ortega, A. (2016, Diciembre, 9). Blanca –BIM y las 7 dimensiones. Recuperado de https://www.espaciobim.com/bim-3d-4d-5d-6d-7d/
Hildebrandt Gruppe. (2016). Profundidad de las dimensiones BIM en proyectos de alta complejidad. Recuperado de http:// www.hildebrandt.cl/dimensiones-bimproyectos-de-alta-complejidad/
Candelario-Garrido, A., García-SanzCalcedo, J., & Reyes Rodríguez, A. M. (2017). A quantitative analysis on the feasibility of 4D Planning Graphic Systems versus Conventional Systems in building projects. Revista Sustainable Cities and Society, 35(August), 378–384. C.Recuperado de https://www.science direct.com/science/article/pii/S22106 70717301312
Smith, P. (2014). BIM & the 5D Project Cost Manager. Revista Procedia - Social and Behavioral Sciences, 119, 475–484. Recuperado de https://www. sciencedirect.com/science/article/pii/ S1877042814021442
Smith, P. (2016). Project Cost Management with 5D BIM. Revista Procedia - Social and Behavioral Sciences, 226(October 2015), 193–200. Recuperado de https://www.science direct.com/science/article/pii/S18770428 16308655
Nicał, A. K., & Wodyński, W. (2016). Enhancing Facility Management through BIM 6D. Revista Procedia Engineering, 164(June), 299–306. Recuperado de https://www.sciencedirect.com/science/article/ pii/S1877705816339649