. I'm trying to get the points to start from a point and go to other points on the map, but instead of going there in 2d, I'm trying to get it to start from 0 in Z axis and go upto 80m in Z axis and then land back at Z axis when get to destination. I'm trying to create a drone environment in 3D. Would this be possible?
Many thanks,
J…
The 3d printer in the office hadn’t been getting a lot of action recently. Used the occasion to set myself a speed challenge. This mobius based form took 3 minutes in grasshopper.
Added by Nick Tyrer at 5:02pm on February 10, 2013
DESIGN 3D Modelling in Rhino (Part 1 of 3); Beginner https://www.youtube.com/watch?v=ZbMPZNgFygQ 2. How to do CONCEPT DESIGN: Material Textures in Rhino (Part 2 of 3) https://www.youtube.com/watch?v=h8XRwZeZbiU Feel Free to email us at Rhino4Arch@gmail.com for any help or information.
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I double clicked the icon and the Expression Designer poped out pompting me to input the variables.
I need to input x1=cos(x) cos(y)
but it would only allow me to input either one but not both. If I try to put an "&" or "+" in between the 2 variables, it accptes it but the resulting 3D surface becomes very strange without much evidence of logic.
I am actually going through the Chapter 3 of Parametric Architecture book on page 58.
can any one be so kind to help me in this issue? what am I doing wrong?
sorry for the stupid question and thanks in advance!!
yutaka…
mber = 108 degree ...the result is pentacles @ different direction plan and some point didn't achieve the equation (and it`s no matter to see different size of pentacles)…
ves not fat beams.
(3) Extract the triangular "unit cell" from one of the faces.
(4) Simply move/scale them into place onto each 3D mesh face using box morph or equivalent transformation.
(5) Flesh out the truss lines with various plug-ins, especially Cocoon marching cubes.
Now looking at Intralattice, I see nearly the exact same workflow!:
"1. We first begin with a cell component, which will generate a unit cell. This unit cell is the basis for the lattice topology.
2. The next stage involves a frame component, which will populate a design space with the unit cell, based on various parameters.
3. The final stage involves a mesh component, which will convert the lattice wireframe (a list of curves) to a solid mesh, which can be 3D printed."
Distinction: my definition is for thick surfaces that enclose empty space. Intralattice is more fully filling 3D based on a 3D unit cell. Mine is for what may be called a 2 1/2D or 2.5D cell since its completely reliant on the pseudo 2D form of a mesh surface despite it's 3d curvature.…