Integration of Architecture & Structure in Optimizing Support's Location Using Genetic Algorithm Method (Case study: Cladding based on Iranian girih)

Taking advantage of geometry has been always a current base in Iranian traditional architecture for accommodate survey among form، stability and coordination. Recognition of components’ geometrical behavior along organic union making’s direction among skeleton، space and background systems causes integrated feedback formation among effective elements in collection’s stability. Based on existing geometrical limitations in their structures and coordination، Iranian girih as modular units are capable of developing in x and y axes by considering visual values and actionable efficiency. According to controlled process of Iranian girih s’ structure in mentioned axes، transferring this discipline in z axis for -3dimensional action’s maintenance of structure collection is also discussed. So، firstly current article has considered usage method of girih geometry productive parameters by Grasshopper graphical coding software، and then resulting collection of various forms from girih geometry is introduced as a population of analyzable genes by genetic algorithm method. Thereby، supports’ optimized location is developed by -3dimentional action among components for reaching an efficient form of girih’s geometry. Adapted to survey، prevalent population of introduced genes collections is selected after simultaneously analysis of form and mechanism by Karamba addition and the most optimized status of supports’ location is selected in circumstances that structure’s components has the minimum stress. Then، the optimized state and organized sample in supports’ location are considered to explore about resulting behavior in both states toward load transferring to case foundation. According to this study results، it can be concluded that by defining certain legislations، geographical mechanism of Iranian girih causes an integrated behavior’s controlling and multi-dimensional action among quality parameters such as cladding structures’ designing and quantity parameters such as proper behavior toward forces. This coordinating feedback between architecture and structure in supports’ optimized location which results from genetic algorithm method، decreases stress in structures’ components and also maximizes structure’s stability besides economic advantage in used materials. So، firstly current article has considered usage method of girih geometry productive parameters by Grasshopper graphical coding software، and then resulting collection of various forms from girih geometry is introduced as a population of analyzable genes by genetic algorithm method. Thereby، supports’ optimized location is developed by -3dimentional action among components for reaching an efficient form of girih’s geometry. Adapted to survey، prevalent population of introduced genes collections is selected after simultaneously analysis of form and mechanism by Karamba addition and the most optimized status of supports’ location is selected in circumstances that structure’s components has the minimum stress. Then، the optimized state and organized sample in supports’ location are considered to explore about resulting behavior in both states toward load transferring to case foundation. According to this study results، it can be concluded that by defining certain legislations، geographical mechanism of Iranian girih causes an integrated behavior’s controlling and multi-dimensional action among quality parameters such as cladding structures’ designing and quantity parameters such as proper behavior toward forces. Based on existing geometrical limitations in their structures and coordination، Iranian girih as modular units are capable of developing in x and y axes by considering visual values and actionable efficiency. According to controlled process of Iranian girih s’ structure in mentioned axes، transferring this discipline in z axis for -3dimensional action’s maintenance of structure collection is also discussed. So، firstly current article has considered usage method of girih geometry productive parameters by Grasshopper graphical coding software، and then resulting collection of various forms from girih geometry is introduced as a population of analyzable genes by genetic algorithm method. Thereby، supports’ optimized location is developed by -3dimentional action among components for reaching an efficient form of girih’sgeometry. Adapted to survey، prevalent population of introduced genes collections is selected after simultaneously analysis of form and mechanism by Karamba addition and the most optimized status of supports’ location is selected in circumstances that structure’s components has the minimum stress. Then، the optimized state and organized sample in supports’ location are considered to explore about resulting behavior in both states toward load transferring to case foundation. According to controlled process of Iranian girih s’ structure in mentioned axes، transferring this discipline in z axis for -3dimensional action’s maintenance of structure collection is also discussed. So، firstly current article has considered usage method of girih geometry productive parameters by Grasshopper graphical coding software، and then resulting collection of various forms from girih geometry is introduced as a population of analyzable genes by genetic algorithm method. Thereby، supports’ optimized location is developed by -3dimentional action among components for reaching an efficient form of girih’s geometry. Adapted to survey، prevalent population of introduced genes collections is selected after simultaneously analysis of form and mechanism by Karamba addition and the most optimized status of supports’ location is selected in circumstances that structure’s components has the minimum stress. Then، the optimized state and organized sample in supports’ location are considered to explore about resulting behavior in both states toward load transferring to case foundation. According to controlled process of Iranian girih s’ structure in mentioned axes، transferring this discipline in z axis for -3dimensional action’s maintenance of structure collection is also discussed. So، firstly current article has considered usage method of girih geometry productive parameters by Grasshopper graphical coding software، and then resulting collection of various forms from girih geometry is introduced as a population of analyzable genes by genetic algorithm method. Thereby، supports’ optimized location is developed by -3dimentional action among components.