Browse > Article
http://dx.doi.org/10.5659/JAIK.2022.38.2.213

A Selection Method for Building Exterior Materials Based on Multi-criteria Decision-making of Project Participants Group  

Hong, Younggi (Architectural Engineering, Dankook University)
Chun, Jaeyoul (Department of Architectural Engineering, Dankook University)
Cho, Jaeho (Department of Architectural Engineering, Dankook University)
Publication Information
Journal of the Architectural Institute of Korea / v.38, no.2, 2022 , pp. 213-222 More about this Journal
Abstract
Functional, structural, design, economic and defect factors must be comprehensively considered in tandem with objective evaluation criteria when deciding upon exterior building materials. If end-users or engineers are not knowledgeable about durability and defect factors of exterior building materials, then there is a high probability of making an inappropriate selection; they should clarify the various requirements for cladding and then implement the proper performance evaluation. In this study, a QFD-TOPSIS model is proposed for end-users and professionals to collectively participate and apply during the decision-making process of selecting exterior building materials. The multi-criteria decision-making model used by project participants enabled the most appropriate choice in actual examples of exterior material selection provided in this study. The case study comparing the QFD-TOPSIS method from multiple experts, end-users, and manufacturers and the VE method by one expert confirmed that the QFD-TOPSIS method required more empirical evidence and detailed evaluation of select exterior building materials.
Keywords
User Requirements; Quality Function Development (QFD); Exterior Building Materials; Multi-criteria Decision-Making; Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS);
Citations & Related Records
Times Cited By KSCI : 5  (Citation Analysis)
연도 인용수 순위
1 Yun, S., Park, H., & Koo, K. (2011). Development of Knowledge based Selection Process for Finishing Materials at Building Design Phase, Journal of the Architectural Institute of Korea, Structure & Construction, 27(7), 175-183
2 Bae, Y., Kwon, W., Cho, J., Choi, B., & Chun, J. (2017). Communication Awareness Survey and Design Communication Method Using QFD, Korea Journal of Construction Engineering and Management, 18(5), 50-58   DOI
3 Chan L., & Wu M. (2004). A systematic approach to quality function deployment with a full illustrative example, Omega, 119-139
4 Chang, G. (2000). A Study of the Group Techniques for Decision Making, Human Resource Management Studies, 1, 201-232
5 Lee, S., & Sin, D. (2008). QFD Theory and Cases, LeeryeTech.
6 Lee, J., & Park, C. (2005). The Conceptual Model of Web-Based Information System for Value Engineering(WISE) in Construction Projects, Korea Journal of Construction Engineering and Management, 6(3), 167-177
7 Ming, L., Lee, J., & Jun, W. (2014). A new MCDM method combining QFD with TOPSIS for knowledge management system selection from the user's perspective in intuitionistic fuzzy environment, Applied Soft Computing, 21, 28-37   DOI
8 Koo, K., Park, H., Park, S., & Kim, J. (2008). Knowledge-Information Based Material Performance Comparison Supporting Model For Selecting Building Finishing Materials in the Design Stages, Journal of the Architectural Institute of Korea, Structure & Construction, 24(4), 191-198
9 Choi, S., & Park, C. (2002). Easy FAST: An Effective Computerized FAST Diagramming Model for Construction VE Projects, Journal of the Architectural Institute of Korea, Structure & Construction, 18(4), 155-163.
10 Chun, J., & Cho, J. (2018). Group Decision-Making and a Design Communication Model Using Quality Function Deployment, Journal of Asian Architecture and Building Engineering, 17(1), 95-102   DOI
11 Lee, C., & Jeong, K. (2012). An Analytic Hierarchy Process based Decision Support System for Selecting Foundation Practice, Korean Journal of Construction Engineering and Management, 13(1), 129-139   DOI
12 Chun, J., & Oh, S. (2003). Constitutional Directions of Decision Support System for Cooperative Design in Architectural Design Phase, Korean Journal of Construction Engineering and Management, 4(2), 91-98
13 Lim, C., Chun, J., & Lee, J. (2019). Project Participants Cooperative Decision Making Model with QFD-based VE Technique, Korean Journal of Construction Engineering and Management, 20(4), 3-12   DOI
14 Lim, T., & Lee, D. (2011). Developing the Quality and Cost Optimization System for Metal Curtain Wall using Genetic Algorithm and Quality Function Deployment, Journal of the Architectural Institute of Korea, Structure & Construction, 27(12), 189-188
15 Park, H., & Chun, K. (2004). Decision Making Support System-Third Edition, KyungMunSa
16 Park, S. (2013). The Evaluation of Apartment Envelope System by LCCO2 Analysis, Journal of the Architectural Institute of Korea, Planning & Design, 29(1), 229-237   DOI
17 Lee, J., Cho, G., Shon, J., & Kim, J. (2009). Selection on the Order of Priority Factor of Construction Key Technology for Improving the Flexibility for a Long Life Apartment Housing at the Next Generation, Korean Journal of Construction Engineering and Management, 10(2), 84-92
18 Park, Y. (2010). Weight and Scale Calculation of Criteria Weighting Method for Decision-Making of Air-Conditioning System Remodeling in Commercial Building, Journal of the Regional Association of Architectural Institute of Korea, 12(3), 221-228
19 Kim, Oh., & Cha, H. (2019). Development of Quantitative Decision Support Model for Optimal Form-Work Based on Construction Site Type, Korean Journal of Construction Engineering and Management, 20(4), 56-68   DOI
20 Cho, J., Chun, J., Kim, I., & Choi, J. (2017). Preference Evaluation System for Construction Products Using QFD-TOPSIS Logic by Considering Trade-Off Technical Characteristics, Mathematical Problems in Engineering, 2017, Article ID 9010857, 1-15
21 Kwon O. (2018). Multi-criteria decision-making methodology theory and practice, Bookshill
22 Lim, B., & Kim, S. (2002). A Fundamental Study on the Effective Selection of External Materials on Building Design, Journal of the Architectural Institute of Korea, Structure & Construction, 18(7), 43-50
23 P. Kanika, & C. Shankar, (2013). A quality function deployment-based model for materials selection, Materials and Design, 49, 525-535   DOI
24 Won, S., Kang, M., Woo, J., & Kim, S. (2006). Building finishes information system ; Productivity ; the Construction Classification System, Korea Journal of Construction Engineering and Management (Conference), 597-601