# Set surf minimum for matlab

I have a function which takes a voxel representation of a 3D landscape and can plot a X-Y section to show the middle of the landscape. The voxel representation is stored in a 3 dimensional matrix with a number that represents something important. Obviously the matrix is

``````1,1,1
2,2,2
``````

in terms of accessing the elements but the actual 3D locations are found in the following method:

``````(index-1)*resolution+0.5*resolution+minPos;
``````

where resolution is the grid size :

``````resolution
<-->
__ __ __
|__|__|__|
<- Min pos
``````

and minPos is where the grid starts.

Now in terms of the actual question, i would like to extract a single X-Y section of this voxel representation and display it as a surf. This can be done by just doing this:

``````surf(voxel(:, :, section))
``````

however then you get this:

The obvious problem is that the grid will start at 0 because that is how the matrix representation is. How can i set the minimum and cell size for surf, ie so that the grid will start at the minimum (shown above) and will have the grid spacing of resolution (shown above).

-

Read the documentation of surf, you can also provide x and y coordinates corresponding to your data points.

``````surf(X,Y,Z)
``````

X and Y can be either vectors or matrices:

`surf(X,Y,Z)` uses `Z` for the color data and surface height. `X` and `Y` are vectors or matrices defining the x and y components of a surface. If `X` and `Y` are vectors, `length(X) = n` and `length(Y) = m`, where `[m,n] = size(Z)`. In this case, the vertices of the surface faces are `(X(j), Y(i), Z(i,j))` triples. To create `X` and `Y` matrices for arbitrary domains, use the meshgrid function

## Example

`````` Z=[ 0 1 2  3;
7 6 5  4;
8 9 10 11];

x=[-1 0 1 2];
y=[-2 0 2];
surf(x,y,Z);
``````

Of course you have to match Z, x and y matrices/vectors as clearly described in the doc^^ Just remember that elements in columns of Z are surf'ed as values along the y-axis, elements in rows of Z are surf'ed as values along the x-axis. This is clearly to be seen in the example picture.

## Solution

I think you switched the x and y-axis around, which you can fix by just transposing `z`:

``````s = size(voxel);
xi = (minPosX:resolution:(minPosX+resolution*s(1)-1));
yi = (minPosY:resolution:(minPosY+resolution*s(2)-1));
z = (voxel(:,:,section));

surf(xi, yi, z');
``````

or that you're picking the wrong numbers for constructing `xi` and `yi` and it should be this instead:

``````xi = (minPosX:resolution:(minPosX+resolution*s(2)-1));
yi = (minPosY:resolution:(minPosY+resolution*s(1)-1));
z = (voxel(:,:,section));
surf(xi, yi, z);
``````
-
I have read the documentation, this doesn't really answer my question. I have an answer now for my question but should i wait so other people can answer? –  Ben Jul 31 '12 at 22:23
this doesn't completely answer your question, but there may still be some work left for you to do right? I pointed out how to fix it, from there it's up to you to implement it, so the result is how you want it to be. –  Gunther Struyf Aug 1 '12 at 6:39
I was hoping for a surf only way ie surf(arguments, min layer) or something like this, but i got around it with my answer. The grid is the correct starting point and resolution. The graph is rotated so if you have a way to fix that i would be interested. –  Ben Aug 1 '12 at 6:43
Good answer, i have tried transposing z, but it didn't work. –  Ben Aug 6 '12 at 22:51

So it was easy enough to do:

lets say we have a 3D matrix "voxel";

``````s = size(voxel);
xi = (minPosX:resolution:(minPosX+resolution*s(1)-1));
yi = (minPosY:resolution:(minPosY+resolution*s(2)-1));
z = (voxel(:,:,section));
[x y] = meshgrid(xi, yi);
x = x';
y = y';

surf(x, y, z);
``````

Provides the following plot:

This is rotated which is annoying, I cant seem to get it to rotate back (I could just visualise around the other way but that's ok)

-
what do you mean with 'the graph is rotated'? `surf` just plots what you tell it to plot, see what your inputs are and adjust them. Compare with existing examples of surf you can find to know how things should be. Make a small example in which you can see for yourself how every point of the surf is related to you inputs,... –  Gunther Struyf Aug 1 '12 at 6:49
@GuntherStruyf Apparently not true, if you you take my script for my application, you must transpose x and y to match z. Or transpose z to match x and y, but if you do either of these things the graph remains the same. Is this not the correct way to turn a surf around? –  Ben Aug 1 '12 at 22:21