A group decision support system is required on a value-based decision because there are different concern caused by differing preferences, experiences, and background. It is to enable each decision-maker to evaluate and rank the solution alternatives before engaging into negotiation with other decision-makers. Stakeholder of multi-criteria decision making problems usually evaluates the alternative solution from different perspective, making it possible to have a dominant solution among the alternatives. Each stakeholder needs to identify the goals that can be optimized and those that can be compromised in order to reach an agreement with other stakeholders. This paper presents group decision model involving three decision-makers on the selection of suitable system for a building’s roof. The objective of the research is to find an agreement options model and coalition algorithms for multi person decision with two main preferences of value which are function and cost. The methodology combines value analysis method using Function Analysis System Technique (FAST); Life Cycle Cost analysis, group decision analysis method based on Analytical Hierarchy Process (AHP) in a satisfying options, and Game theory-based agent system to develop agreement option and coalition formation for the support system. The support system bridges theoretical gap between automated design in construction domain and automated negotiation in information technology domain by providing a structured methodology which can lead to systematic support system and automated negotiation. It will contribute to value management body of knowledge as an advanced method for creativity and analysis phase, since the practice of this knowledge is teamwork based. In the case of roof system selection, it reveals the start of the first negotiation round. Some of the solutions are not an option because no individual stakeholder or coalition of stakeholders desires to select it. The result indicates the alternative solution that will be the best-fit solution. In this problem, a space frame system is the ‘best-fit’ solution for the roof system.

support system, value-based, group decision and negotiation, roof system

T. Wanyama, and B.H. Far, ”A Protocol for multi-agent negotiation in a group-choice decision-making”, Journal of Network and Computer Applications,Vol. 30, pp. 1173-1195, 2007.

J. Vaníček, I. Vrana, and S. Aly, ”Fuzzy aggregation and averaging for group decision making: a generalization and survey”, Knowledge-Based System, Vol. 22(1), pp. 79-84, 2009.

W.C. Stirling, “Satisfying Games and Decision Making with Applications to Engineering and Computer Science”, Cambridge: Cambridge University Press, 2003.

A. Spala, H.S. Bagiorgas, M.N. Assimakopoulos, J. Kalavrouziotis, D. Matthopoulos, and G. Mihalakakou, “On the green roof system, selection, state of the art and energy potential investigation of a system installed in an office building in Athens, Greece”, Journal Renewable Energy, Vol. 33(1), pp. 173-177, 2008.

T. Smith, “Building envelope design guide-roofing systems”, 2009. Retrived from http://www.wbdg.org/design/envroofing.php.

J.W. Rossiter and E. Kane, “W83-roofing materials and systems CIB coordinators trend reports and anthology of future perspective”, CIB Publication, Vol. 211, 1997.

C. Utomo, A. Idrus, and M. Napiah, “Methodology for multi criteria group decision and negotiation support on value-based decision”, International Conference on Advanced Computer Control International Association of Computer Science and