Nonlinear interpolation vectors

Replies to This Discussion

Permalink Reply by Pieter Segeren on November 2, 2015 at 3:23pm

Hi Dani, a wild guess: can't you treat them as lines and do a OneRailSweep with the arc as rail, and then get some isocurves in {v} direction (which are lines) of the resulting sweep?
Greetings!

Attachments:

• wildguess.png, 33 KB
• sthlikethis_PSG.gh, 20 KB

Permalink Reply by ng5 Alex on November 2, 2015 at 3:42pm

@pieter, adding a graph mapper at this (say division fo the arch), many options could come up too.

Permalink Reply by Pieter Segeren on November 2, 2015 at 4:02pm

To what avail Alex? I'm not seeing it - or did I misunderstand your suggestion?

Attachments:

• ToWhatAvail.png, 154 KB

Permalink Reply by ng5 Alex on November 2, 2015 at 4:11pm

i was thinking, maybe through graph mapper to have not only arch describing vectors, but distorted curves, extending the ones of the arch curve, to sine wave etc. cant test atm, i have rhino animating 7000 slider frames. :-@

bad description, i need to make a screenshot.

Permalink Reply by Daniel González Abalde on November 2, 2015 at 4:30pm

Thanks Pieter, but I need the mathematics because I'm designing from code. Thank you anyway ;)

Permalink Reply by Ethan Gross on November 2, 2015 at 3:30pm

Hi Daniel, is this like what you had in mind?

Attachments:

• circular interpolation.gh, 8 KB

Permalink Reply by Daniel González Abalde on November 2, 2015 at 4:47pm

Hi Ethan, this is close, but does not serve me a circular interpolation. Attached practical problem. What I want to do is to mesh the polygons of a dual mesh, but instead of having the vertices on polygons, I want to raise them a bit so that the resulting mesh has coherent curvature instead of being flat.

This is what I want to avoid:

This is what I get:

This is what I want to get (more o less):

What I want to have is something like the interpolation of Catmull-Clark subdivsion, but from another perspective, mm i think, I'm not sure xD. But you get my problem?

Attachments:

• circularinterpolationDGA.gh, 31 KB

Permalink Reply by Javier Vizoso on November 2, 2015 at 5:16pm

I'm not really sure what you're trying to accomplish. The first image looks like a simple interpolation (A*t + B*(1-t)) . This second set of images looks like you're trying to spherify the mesh.

Permalink Reply by Daniel González Abalde on November 2, 2015 at 5:53pm

Yeah, ok, to better explain what I want to achieve, here is made with kangaroo, polylines corners are anchor points and the other vertices are moved in their normal. The result is a curvature consistent with the shape.
Look, I have this design (still without smoothing/subdivision), and want to avoid straight lines (like blue) because they break the organic form that I seek. Each cell is born of the dual mesh, and if I can interpolate their points so that it is not linear, I will not have straight lines like the blue polyline.

Permalink Reply by Javier Vizoso on November 2, 2015 at 6:20pm

You should be able to do something similar by interpolating the vectors like you said. Here I would move the dual edge points by a factor of the normal of the two original faces crossed by the edge. Maybe also using the polygon normals to a lesser degree. You should build an equation similar to Catmull-Clark and test the ratios.

Permalink Reply by Ethan Gross on November 2, 2015 at 7:31pm

Daniel, I have no immediate answer for you but it seems like you need to interpolate between more than two vectors at a time and the assumption is your mesh is convex everywhere(?).

Permalink Reply by Ethan Gross on November 4, 2015 at 3:58pm

Hi Daniel,

This is in no way relevant to your project but I labeled my definition "circular interpolation", where in actuality, the interpolated vectors travel along an ellipse. I'm sure we're all glad that matter is settled.

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