TY - JOUR
T1 - From fractal geometry to architecture
T2 - Designing a grid-shell-like structure using the Takagi–Landsberg surface
AU - Rian, Iasef Md
AU - Sassone, Mario
AU - Asayama, Shuichi
N1 - Publisher Copyright:
© 2018 Elsevier Ltd
PY - 2018/5
Y1 - 2018/5
N2 - This paper has applied the concept of fractal geometry in designing a grid-shell-like complex spatial structure. The property of the fractal dimension which characterizes the level of roughness of a shape has been particularly explored in this study for designing a complex-shaped spatial structure by taking a paraboloid as a basic shape of reference. A factor of fractal dimension which is known as the relative size value (w) plays the key role in changing the surface texture in accordance with the changing of fractal dimension. In this paper, the relative size value (w) has been specifically applied to study the texture-based shape morphogenesis of a paraboloid by using the reference of the Takagi–Landsberg's fractal surface. This research is curious to see how this surface morphogenesis impacts on the structural behavior and unveils an opportunity to develop a new kind of form. For this purpose, we have computationally generated a parametric model of a grid-shell-like structure by making a paraboloid as a basic geometric framework and by adding an extra supporting frame in order to avoid any structural failure during the surface morphogenesis of the outer profile. A structural comparison has been done in between the grid-shell-like structure having the paraboloid-based smooth outer profile and the structure having a fractal-based unsmooth outer profile. A real-scale physical prototype of a fractal-based grid-shell-like structure has been constructed to see its architectural appearance, real-world structural behavior, practical applicability and constructability.
AB - This paper has applied the concept of fractal geometry in designing a grid-shell-like complex spatial structure. The property of the fractal dimension which characterizes the level of roughness of a shape has been particularly explored in this study for designing a complex-shaped spatial structure by taking a paraboloid as a basic shape of reference. A factor of fractal dimension which is known as the relative size value (w) plays the key role in changing the surface texture in accordance with the changing of fractal dimension. In this paper, the relative size value (w) has been specifically applied to study the texture-based shape morphogenesis of a paraboloid by using the reference of the Takagi–Landsberg's fractal surface. This research is curious to see how this surface morphogenesis impacts on the structural behavior and unveils an opportunity to develop a new kind of form. For this purpose, we have computationally generated a parametric model of a grid-shell-like structure by making a paraboloid as a basic geometric framework and by adding an extra supporting frame in order to avoid any structural failure during the surface morphogenesis of the outer profile. A structural comparison has been done in between the grid-shell-like structure having the paraboloid-based smooth outer profile and the structure having a fractal-based unsmooth outer profile. A real-scale physical prototype of a fractal-based grid-shell-like structure has been constructed to see its architectural appearance, real-world structural behavior, practical applicability and constructability.
KW - Fractal geometry
KW - Grid-shell-like structure
KW - Midpoint displacements
KW - Relative size value
KW - Takagi–Landsberg surface
UR - http://www.scopus.com/inward/record.url?scp=85041542872&partnerID=8YFLogxK
U2 - 10.1016/j.cad.2018.01.004
DO - 10.1016/j.cad.2018.01.004
M3 - Article
AN - SCOPUS:85041542872
SN - 0010-4485
VL - 98
SP - 40
EP - 53
JO - CAD Computer Aided Design
JF - CAD Computer Aided Design
ER -