1

So I have this code that produces the exact surface

f = function(x, y){
    z = ((x^2)+(3*y^2))*exp(-(x^2)-(y^2))
}
plot3d(f, col = colorRampPalette(c("blue", "white")), 
       xlab = "X", ylab = "Y", zlab = "Z", 
       xlim = c(-3, 3), ylim = c(-3, 3),
       aspect = c(1, 1, 0.5))

Giving the following plot: 3d exact plot Now I have some code that does a random walk metropolis algorithm to reproduce the above image. I think it works as if I do another plot of these calculated values I get the next image with 500 points. Here is the code

open3d()
plot3d(x0, y0, f(x0, y0), type = "p")

Which gives the following plot: enter image description here I know it's hard looking at this still image but being able to rotate the sampling is working.

Now here is my question: How can I use plot3d() so that I can have a surface that connects all these points and gives a more jagged representation of the exact plot? Or how can I have each point in the z axis as a bar from the xy plane? I just want something more 3 dimensional than points and I can't find how to do this.

Thanks for your help

2

You can do this by triangulating the surface. You don't give us your actual data, but I can create some similar data using

f = function(x, y){
    z = ((x^2)+(3*y^2))*exp(-(x^2)-(y^2))
}
x <- runif(500, -3, 3)
y <- runif(500, -3, 3)
z <- f(x, y)

Then the plotting is done using the method in ?persp3d.deldir:

library(deldir)
library(rgl)
col <- colorRampPalette(c("blue", "white"))(20)[1 + round(19*(z - min(z))/diff(range(z)))]
dxyz <- deldir::deldir(x, y, z = z, suppressMsge = TRUE)
persp3d(dxyz, col = col, front = "lines", back = "lines")

This might need some cosmetic fixes, e.g.

aspect3d(2, 2, 1)

After some rotation, this gives me the following plot:

enter image description here

  • I think this gives the closest thing to what I was looking for and there is no extra points being added to the data as with the other answers so this is very nice thank you – MRT Dec 1 '18 at 17:00
0

I'm not sure to understand what you want. If my understanding is correct, here is a solution. Define a parametric representation of your surface:

fx <- function(u,v) u
fy <- function(u,v) v
fz <- function(u,v){
  ((u^2)+(3*v^2))*exp(-(u^2)-(v^2))
}

Let's say you have these points:

x0 <- seq(-3, 3, length.out = 20)
y0 <- seq(-3, 3, length.out = 20)

Then you can use the function parametric3d of the misc3d package, with the option fill=FALSE to get a wireframe:

library(misc3d)
parametric3d(fx, fy, fz, u=x0, v=y0, 
             color="blue", fill = FALSE)

enter image description here

Is it what you want?

To get some vertical bars, use the function segments3d of rgl:

i <- 8
bar <- rbind(c(x0[i],y0[i],0),c(x0[i],y0[i],f(x0[i],y0[i])))
segments3d(bar, color="red")
  • Hmm... Finally I think that parametric3d is not appropriate, because it creates a grid of points from x0 and y0. But maybe it's possible to modify the source code to get something appropriate. – Stéphane Laurent Nov 21 '18 at 16:02
  • Wow no I think this is good, thanks! I will try something similar and see how it looks but I’ll try and say again. What I wanted was for all the points to be connected by a net and this looks promising. I’m also new to the package and the language so I wasn’t sure of what function in the package might do what I was looking for but I think your greater knowledge has helped me. – MRT Nov 23 '18 at 10:16
  • @MRT I'm not sure... With parametric3d you give x0 and y0 and the points are those of the grid expand.grid(x0, y0). There's no need that x0 and y0 have the same length. While in your case you don't want a grid. – Stéphane Laurent Nov 23 '18 at 10:58
  • True I don't want a grid but I have just tried running it with my 1000 point resolution and it all merges together to give a smooth blue surface. One question I would like to ask is do you know enough about this function parametric3d to tell me how I can have the box around like the scatter plot I have in the question? – MRT Nov 25 '18 at 16:37
  • Oh wait there is a problem. When I use only a few points the surface should look much more jagged then it does but I can't show images so I'll post a new answer after this – MRT Nov 25 '18 at 16:46
0

Here is a plot with only 50 points using my original code.

Scatter graph of 50 points

When I then apply what was said by Stéphane Laurent I then get this plot which feels too accurate when given the actual points I have

wire plot

Perhaps you need to explain to me what is actually happening in the function parametric3d

  • 1
    I already explained :-) When, for example, you give x0 = c(1,2) and y0=c(3,4), then parametric3d uses the points c(1,3), c(1,4), c(2,3), c(2,4) (the grid obtained by "crossing" x0 and y0, the Cartesian product in other words). – Stéphane Laurent Nov 28 '18 at 7:31

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