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, Question 41*: What is your major? ? Architect ? Engineer ? Other, vol.------------------------

, Question 37*: What is your major? ? Architect ? Engineer ? Other, vol.------------------------

, Appendix III: Experiment, vol.3

A. , Test of Derringer & Suich's aggregation function (*required)

, You are in the early stage of designing four office buildings, each in different place. Location 1: Extremely hot climate

, ? Objective 1: Form compacity "Maximize": Optimize this objective should increase form compacity

, If this objective weight = 0 it means direct sunlight has no importance, for example; a building with no potential of receiving direct sunlight is acceptable" ? Objective 3: Natural lighting "Maximize": Optimize this objective should increase natural lighting (indirect sunlight) that reach the building, ? Objective 2: Direct sunlight "Maximize": Optimize this objective should increase direct sunlight that reaches the building

, ? Objective 4: Heating load "Minimize": Optimize this objective should decrease the building heating energy consumption

B. , Test of Maximin aggregation function (*required)

, You are in the early stage of designing a mixed-use building (office, residential, commercial) in a Mixed climate "hot summer

, ? The building is modular and the size of one module is (width=6m, Length=8m, Hight=4m)

, Here is a solar gain graph that represents the performance of the solutions in summer and in winter A scatterplot that represents the solutions Question 4*: We want to maximize the solar gain in winter and to minimize the solar gain in summer. Please rank the solutions according to your preference