Architectural Geometry Informed by Static and Dynamic Loading Conditions. 02

Different panelization options are generated via the code for the geometry with the assigned curve function:  F= sin (v)+cos (u). The script*  performed at RhinoScript platform. Because planar quadrilateral panels obtain advantage of having a lower node complexity and are feasible for manufacturing, planar quadrilateral panels are operated for the geometry. The code enables that the architectural designer can identify if the geometry contains any holes. If yes, then the shapes of them needs to be defined. The algorithm runs with the following procedural steps which the user needs to identify during the execution of the code:

  • Selecting the NURBS surface.
  • Defining the U and V values of the surface.
  • Specifying types of holes if exists any.
  • Introducing the shapes of the holes.
  • Defining the percentage of the holes within overall panels.
  • Deciding if the hole sizes vary or not.

*Special thanks to Fabio Mantuano.

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