Grasshopper

algorithmic modeling for Rhino

Planar Quadrilateral meshes (and particularly the special cases of Circular and Conical meshes) have numerous advantages for architecture and fabrication (see the work of Bobenko or Pottmann for details).

I am developing ways of optimizing meshes within Kangaroo in a way that allows the user to interact during the process. A balance can be set between factors such as how tightly the mesh is pulled onto the NURBS surface, planarity, panel size etc.
Because they are integrated directly into the physics engine it is possible to combine these geometric constraints with any of the other force-based form finding methods I have shown earlier.

It's time to move beyond post-rationalization of 'free-form' surfaces. 'Construction-aware-design' here we come!

Views: 2208

Comment

You need to be a member of Grasshopper to add comments!

Comment by Daniel Piker on October 4, 2010 at 9:15am
Thanks all. I'll test it out on a bigger mesh. If someone has a nice NURBS surface to use as a test case please let me know!
Comment by morphedian on October 4, 2010 at 9:03am
construction-aware-"awesome"-design in my eyes!!!

nevertheless i would like to see a bigger mesh and how your tool can handle smoothness.

morphy
Comment by Ivan Kiryakov on October 4, 2010 at 8:47am
amazing!
Comment by Jacek Jaskólski on October 4, 2010 at 8:22am
This is very, very promising. Way to go, Daniel!

About

Translate

Search

Videos

  • Add Videos
  • View All

© 2024   Created by Scott Davidson.   Powered by

Badges  |  Report an Issue  |  Terms of Service