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Suppose we have a matrix I of size 49x49x5, corresponding to 5 images of size 49x49 stacked along the third dimension so we have a total of 5 images. These images should visualize the density of a gas in a 3D space, so we can think of each image as a section cut of the room at different locations.

Is there any way to make a figure in MATLAB where all 5 images are shown as hanging in the 3D space they "came from"?

Here is an image hopefully making it clearer what I am after: 5 images haning in 3D space

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What did you use to generate that image? –  Jacob Oct 7 '11 at 15:48
1  
Google Sketchup :) –  Vidar Oct 7 '11 at 16:01

3 Answers 3

up vote 6 down vote accepted

Consider the following example. It uses the low-level SURFACE function to plot stacked images:

%# create stacked images (I am simply repeating the same image 5 times)
img = load('clown');
I = repmat(img.X,[1 1 5]);
cmap = img.map;

%# coordinates
[X,Y] = meshgrid(1:size(I,2), 1:size(I,1));
Z = ones(size(I,1),size(I,2));

%# plot each slice as a texture-mapped surface (stacked along the Z-dimension)
for k=1:size(I,3)
    surface('XData',X-0.5, 'YData',Y-0.5, 'ZData',Z.*k, ...
        'CData',I(:,:,k), 'CDataMapping','direct', ...
        'EdgeColor','none', 'FaceColor','texturemap')
end
colormap(cmap)
view(3), box on, axis tight square
set(gca, 'YDir','reverse', 'ZLim',[0 size(I,3)+1])

I am using indexed color images (with direct color mapping), but it can be easily changed to use grayscale images (with scaled color mapping).

Now if you want to get the 3D space arranged like you have shown in your question, simply interchange the Y and Z dimensions (images stacked along the Y-dimension instead of the Z-dimension).

In general, to have more control on the viewing angle, use the camera manipulation functions.

screenshot_zstacked_indexed screenshot_ystacked_grayscale

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If I understand you correctly, you can use the slice() or contourslice() functions to do this.

Check out this example: Techniques for Visualizing Scalar Volume Data

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The function you're looking for is the patch function. By way of example:

x=[1 1 6]; y=[2 7 2]; z=[1 1 -1];

This specifies a triangle (three points), and the coordinates of the vertices are (1,2,1), (1,6,1), and (6,2,-1). If you would add a fourth point to each vector it would be a rectangle, with the new vertex at the new x,y,z coordinate.

To answer your posted question directly, you can plot a number of rectangles for each variable simply by using a multidimensional array for x, y, and z, where each column specifies a different polygon. In practice, this works as follows:

% plot two rectangles
x = [1 1 1 1;
    1 1 1 1;
    4 4 4 4;
    4 4 4 4;];

y = [1 1 1 1;
    2 2 2 2;
    2 2 2 2;
    1 1 1 1;];

z = [1 2 3 4;
    1 2 3 4;
    1 2 3 4;
    1 2 3 4;];

patch(x,y,z,'w');

Which makes:

Four stacked rectangles

There are options you can use to add color to the polygons, check the docs.

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Maybe you misunderstood (and my image alone was misleading). I want to fill those patches with images stored in the matrix. Can that be done with patches? I'm checking out slice() now which seems promising. –  Vidar Oct 7 '11 at 16:28
    
@Vidar - Actually, it can, but my example isn't what you're looking for then. Check out the Patch Properties page, the CData section. –  eykanal Oct 7 '11 at 16:33

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