Modeling of the Sustainability Goal and Objective Setting Process in the Predesign Phase of Green Institutional Building Projects
Publication: Journal of Architectural Engineering
Volume 20, Issue 2
Abstract
The process of constructing a sustainable green building presents a number of challenges compared with regular buildings. Additional work and documentation is needed in every stage of the project life cycle for the sustainable building to reach its goal of being certified according to one of the available sustainability rating systems. One of the most important steps toward achieving that goal is the eco-charrette process that takes place during the predesign phase of the project. The importance of this step stems from the fact that it sets the sustainability goals and objectives for the entire project. This necessitates the creation of an effective decision support methodology that will support project stakeholders in setting the sustainability goals and objectives of the project before committing valuable time and budget resources to the eco-charrette process. Therefore, this paper presents the development of an agent-based model for simulating the interactions between project stakeholders in the sustainability goal and objective setting process of the project predesign phase. The proposed model was developed based on extensive interviews with industry professionals and project stakeholders, and was tested and validated using a case study of an institutional building project. Simulation results were shown to closely resemble the actual case studies evaluated and highlighted the sensitivity and relationships of building design parameters.
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Acknowledgments
This publication was made possible by a grant from the Qatar National Research Fund under its National Priorities Research Program Award No. NPRP 09-717-2–274. Its contents are solely the responsibility of the authors and do not necessarily represent the official views of the Qatar National Research Fund.
References
Anumba, C. J., Ugwu, O. O., and Ren, Z. (2005). Agents and multi-agent systems in construction, Taylor & Francis, Oxford, U.K.
Baird, G. (2009). “Incorporating user performance criteria into building sustainability rating tools (BSRTs) for buildings in operation.” Sustainability, 1(4), 1069–1086.
Bayraktar, M. E., and Owens, C. R. (2010). “LEED implementation guide for construction practitioners.” J. Archit. Eng., 85–93.
Chakraborty, J., and Bahr, P. H. (2009). “Sizzling green: Integrated design process for greener institutional kitchens.” Proc., PLEA2009—26th Conf. on Passive and Low Energy Architecture, Presses Université Laval, Québec City, Canada.
EPA. (2010). “Green building basic information.” 〈http://www.epa.gov/greenbuilding/pubs/about.htm〉 (Jan. 25, 2013).
Fenves, S. J., et al. (1994). Concurrent computer-integrated building design, Prentice Hall, Englewood Cliffs, NJ.
Fowler, K. M., and Rauch, E. M. (2006). “Sustainable building rating systems summary.” 〈http://www.osti.gov/bridge/servlets/purl/926974-fmYFSa/926974.pdf〉 (Feb. 4, 2011).
Gibson, G. E., Jr., Kaczmarowski, J. H., and Lore, H. E., Jr. (1995). “Preproject-planning process for capital facilities.” J. Constr. Eng. Manage., 312–318.
Gowri, K. (2004). “Green building rating systems: An overview.” ASHRAE J., 46(11), 56–59.
Korkmaz, S., Riley, D., and Horman, M. (2010). “Piloting evaluation metrics for sustainable high-performance building project delivery.” J. Constr. Eng. Manage., 877–895.
Leaman, A. (2002). “User needs and expectations.” Buildings, culture and environment, Blackwell Publishing, Oxford, U.K., 1–13.
Litman, T. (2010). Recommendations for improving LEED transportation and parking credits. Victoria Transport Policy Institute (VTPI), Victoria, BC, Canada, 1–19.
North, M. J., and Macal, C. M. (2007). Managing business complexity: Discovering strategic solutions with agent-based modeling and simulation, Oxford University Press, New York.
Parrish, K., and Regnier, C. (2013). “Proposed design process for deep energy savings in commercial building retrofit projects.” J. Archit. Eng., 71–80.
Patton, M. Q. (2002). Qualitative research and evaluation methods, 3rd Ed., Sage Publications, Thousand Oaks, CA.
Pearce, A. R., Bernhardt, K. L., and Garvin, M. J. (2010). “Sustainability and socio-enviro-technical systems: Modeling total cost of ownership in capital facilities.” Proc., 2010 Winter Simulation Conf., Sage Publications, Thousand Oaks, CA, 3157–3169.
Ren, Z., Anumba, C.J., and Ugwu, O. O. (2001). “Development of a multi-agent system for construction claims negotiation.” Adv Eng Softw, 16(5), 359–394.
Roderick, Y., McEwan, D., and Wheatley, C. (2009). “A comparative study of building energy performance assessment between LEED, BREEAM and Green Star schemes.” 〈http://www.iesve.com.au/content/mediaassets/pdf/〉 (Dec. 7, 2010).
Saaty, T. L. (1980). The analytic hierarchy process, McGraw Hill, New York.
Smith, T., Fischlein, M., Suh, S., and Huelman, P. (2006). “Green building rating systems—A comparison of the LEED and Green Globes systems in the US.” Prepared for the Western Council of Industrial Workers (September 2006), Portland, OR.
Syal, M. G., Mago, S., and Moody, D. (2007). “Impact of LEED-NC credits on contractors.” J. Archit. Eng., 174–179.
Syphers, G., Baum, M., Bouton, D., and Sullens, W. (2003). “Managing the cost of green building.” Rep. Submitted to the State of California, Kema Consultants, Oakland, CA 〈http://www.calrecycle.ca.gov/GreenBuilding/Design/ManagingCost.pdf〉 (Sept. 1, 2013).
Todd, J. A., Boecker, J., Meadows, D., Bennett, A. K., and Dean, S. W. (2008). “Continuous improvement of the U.S. Green Building Council’s leadership in energy and environmental design (LEED) rating system.” J. ASTM Int., 5(1), 101095.
U.S. Green Building Council (USGBC). (2005). “LEED for new construction and major renovations, version 2.2.” 〈http://www.usgbc.org/Docs/Archive/General/Docs1095.pdf〉 (Sept. 1, 2013).
U.S. Green Building Council (USGBC). (2013). “LEED 2009 for new construction and major renovations rating system.” 〈http://www.usgbc.org/sites/default/files/LEED%202009%20RS_NC_04.01.13_current.pdf〉 (Sept. 1, 2013).
Vlassis, N. (2003). A concise introduction to multiagent systems and distributed AI, Intelligent Autonomous Systems Informatics Institute, Univ. of Amsterdam, Amsterdam, Netherlands.
Xiaoping, M., Huimin, L., and Qiming, L. (2009). “A comparison study of mainstream sustainable/green building rating tools in the world.” Proc., MASS '09. Int. Conf. on Management and Service Science, IEEE Wuhan Section, Wuhan, China.
Yudelson, J. (2006). Marketing green buildings: Guide for engineering, construction and architecture, 1st Ed., Fairmont Press, Lilburn, GA.
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© 2013 American Society of Civil Engineers.
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Received: Feb 11, 2013
Accepted: Oct 14, 2013
Published online: Oct 16, 2013
Discussion open until: May 11, 2014
Published in print: Jun 1, 2014
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