# create 3D image from coordinates and intensity values

I am trying to create a 3D array of size 1000x1000x1000 with all the elements (corresponding to voxels) being zero and then assign a random value in the 2000 to 2001 range instead of 0 to some specific elements in the array and finally store it as a binary file.

The array named "coord" is the Nx3 matrix coordinates (x,y,z) of the points that I need them to be assigned the random value in the 3D array.))

I should mention that all the x,y,z values of the coordinate matrix are floating point numbers with: 0<=x<=1000 0<=y<=1000 0<=z<=1000

My aim is to export the 3D matrix in a binary format (other than MATLAB's default binary format) so that I can use it with other programs. Here is what I've been up to so far:

``````load coord;
a=coord(:,1);
b=coord(:,2);
c=coord(:,3);
d=rand(1000,1)*2000;
dd = 0:2:1000;
[xq,yq,zq] = meshgrid(dd,dd,dd);
vq = griddata3(a,b,c,d,xq,yq,zq,'nearest');
h=figure;
plot3(a,b,c,'ro')
%=========================================%
fid=fopen('data.bin','w');
fwrite(fid,vq,'single');
fclose(fid);
``````

In the above code a, b and c are the coordinates of each point and d is the corresponding intensity values for the desired range. While it is possible to create a 3D mesh (using meshgrid) and then interpolate the intensity values for mesh points (using griddata3), the final result (vq) would not be the actual points (ai,bi,ci) and corresponding intensities , but rather an interpolated set of points which is pretty useful for visualization purposes (for instance if you like to fit a 3D surface which fits through actual data). I am simply trying to find a way to store the actual data-points and their intensities into a file and export it. Any help is highly appreciated.

-

If you want to save to files that will allow importing into a visualization software, a series of Tiff files will most likely be convenient, i.e.

``````maxValue = 2000; % this is the maximum signal that can possibly occur

for z = 1:size(vq,3)
%# convert slice z to 16 bit
currentSlice = vq(:,:,z);
currentSlice = uint16(round(currentSlice/maxValue))
%# save to file
imwrite(currentSlice, sprintf('testImg_z%04i.tif',z),'tif');
end
``````

Note that if you create a double array of dimensions 1000x1000x1000, you'll need 8GB of contiguous RAM.

-
Thanks a lot for your quick reply. This certainly is a good idea for exporting the data and visualization. However, I am stuck in one step before exporting,i,e,, writing the correct data-points into the file. As I mentioned, the interpolation method, "calculates" some new points in a grid and assigns values (based on the interpolation method) to them. But, what I am after is writing the actual data and their intensity values instead. – regex99 Jun 24 '12 at 6:10

``````%# 3D array
voxels = zeros([1000 1000 1000]);

%# round points coordinates, and clamp to valid range [1,1000]
coords = round(coords);
coords = min(max(coords,1),1000);

%# convert to linear indices
idx = sub2ind(size(voxels), coords(:,1), coords(:,2), coords(:,3));

%# random values in the 2000 to 2001 range
v = rand(size(idx)) + 2000;

%# assign those values to the chosen points
voxels(idx) = v;
``````
-
Thanks a lot Amro. This is indeed a good trade-off for my problem. But, I need to have the coordinates with floating point precision in the data-file. Otherwise, I have thought about rounding them off as well. – regex99 Jun 24 '12 at 7:23