To fine tune the geometry of the pavilion we manipulate the lists we already defined. In this video we trim the end of the geometry to end with both sides of the pavilion in symmetry. Lists are an...
After the curve geometry of the pavilion is established we revolve it into a surface. Here we discuss how to create a surface using the revolve method and issues to consider. The curve...
The next tool we use to dynamically update items is the Series. Here we set up a series of points that will become the 'wavelengths' for the Hannover Pavilion modules. The Series...
In this series we explore the power of lists to drive parametric changes in the Hannover Pavilion from early on in the design to precise details. This first video explains how lists work and gives...
With the Grasshopper definiton complete, we go over how to bake geometry, save, and manage the models.
Once our model is complete, we test the parametric dynamism of the Grasshopper definition's inputs and outputs.
This shows how we create the final surface with RevolveSrf.
In this video we use the Domain function to collect our inputs and Join to create longer curves.
Here we define smaller pieces of the puzzle with subcurves.
Looking at setting different modes of dynamic inputs to the parametric model.
We start to recreate Shigeru Ban's Hannover Pavilion. We start by drawing the circlular arcs and base geometry.