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);
```