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I need to make a 3D surface where colour will represent the fourth variable. I know "surf" is SIMILAR to what I need, but that's not quite it. Basically, I have the following variables:

t = [1:m]

y = [1:n]

a = [1:o]

These should be the three Cartesian corodinate axes.

I also have a variable S that is of dimensions m x n x o, and is basically the amplitude, a function of the previous three variables (i.e. S = f(t,y,a)). I want this to be represented by colour.

So to summarize, I need a graph of the form (t,y,a,S), where the first three variables are vectors of unequal sizes and the final variable is a multidimensional array whose dimensions are determined by the first three.

Thanks in advance.

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what did you end up doing? yuk solve your problem? Don't forget to select an answer :) –  Eric Cope Oct 31 '12 at 6:41

4 Answers 4

SCATTER3 requires x, y and z and other grouping arguments to be equally-sized Nx1 vectors for a single series or NxM matrices for M series.

You have full space 3D data. To make equally-sized coordinate vectors use MESHGRID (or NDGRID) function:

[X, Y, Z] = meshgrid(t, y, a);

Then you can use SCATTER3:

scatter3( X(:), Y(:), Z(:), [], S(:) )

The problem is since it's full space data scatter3 will not be helpful specially if you have a lot of points.

You can probably filter your S variable (something like idx = S > 0), then you can plot filtered data.

If you really need to visualize all the data, look at Volume visualization in MATLAB documentation. I can recommend SLICE function, for example.

EDIT

Here is an example of full 3D space scatter plot for small vectors (m, n, o equal to 5) with S = rand([m,n,o]); scatter3( X(:), Y(:), Z(:), [], S(:), 'filled' )

scatter example

EDIT 2

From your comments to the other answer I found that you have 32x76050x4 matrix. You can actually plot 2D slice one at a time. you can do it in 2D with IMAGESC function, or in 3D with SLICE function.

Try:

imagesc(S(:,:,k))

where k is a number from 1 to 4 for the 3rd dimension.

Or try

slice(S, [], [], 1:size(S,3))
shading flat

slice example

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Thank you, I will try this! I will update you when I get the results! =D –  Mike Apr 1 '12 at 6:40
    
Can you post a screenshot of what that looks like, if possible? I'm curious. Thanks! –  RutgersMike Apr 3 '12 at 14:38
    
Screenshot of what? scatter plot? Remember it's full space, so it will not make much sense unless you filter the data. I can show it for small vectors. –  yuk Apr 3 '12 at 15:08
    
I've always been a big fan of ISOSURFACE for 4-D visualization. A few transparent isosurfaces can make a very pretty plot. ;) –  gnovice Apr 3 '12 at 15:25
    
@gnovice: Yea, it could be cool. I didn't know. The problem in this case is only 4 levels in 3rd dimension. –  yuk Apr 3 '12 at 15:32

Maybe this user-created plotting routine can help.

Screnshot from the linked page: Screnshot from the linked page

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I've always used scatter3 for coloring/sizing pixels in 3d space. I believe the signature is:

scatter3(x,y,z, size, color)

The size and color can be scalar or vector of length equal to the coordinates. I usually use either the color or the size to reflect the fourth attribute, depending on what I'm showing. I don't have Matlab on this machine, so forgive me if my memory isn't completely accurate on the usage. "help scatter3" should describe it much better.

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Thanks, I was also suggested this on the MATLAB forums. I'll look into it. However, in my case, what would I do with the size variable? That one I'm not concerned about, but I am interested in the other four. –  Mike Apr 1 '12 at 0:11
    
I have a set of time-domain signals that are separated in space, and I have taken the continuous-wavelet transform of them to get a scalogram. Thus, I have three variables as the axes: time (t), space (x), and scales/frequency (a), as well as the actual scalogram itself--or rather, a set of scalograms for each of the different spatially separated signals. time is of length 76050 scales is of length 32 space is of length 4 Thus, the set of scalograms is a multidimensional array of length 32x76050x4, with the actual values inside representing the amplitude. It's pretty confusing. –  Mike Apr 1 '12 at 0:15
    
I just thought of an idea. What if I scaled the variables appropriately so that their sizes can fit into a function like surf or scatter3D? So currently, the variables are like 32x76050x4. Using linspace or something along those lines, I should be able to make thse guys line up. Let me give this a try. –  Mike Apr 1 '12 at 2:52
    
@Mike: You should add this new information to the question. –  yuk Apr 3 '12 at 15:34

I found this thread:

http://www.mathworks.de/matlabcentral/newsreader/view_thread/315802

I'm not sure if it's exactly the same thing that I want, though. It kind of sucks to know that MATLAB simply can't do what I want (if it is true--and if so, I wish I knew this before), but I'm downloading Amira now, so hopefully this will help. We'll see.

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I haven't used Amira, but after looking at its features I believe MATLAB can do most of it, probably all. Have you looked at the Volume visualization link I provided in my answer? Do you have an idea how you want to visualize your data? Are all the point meaningful? –  yuk Apr 1 '12 at 22:04
    
I'm looking into that stuff now. Right now I'm thinking about passing the data into the function meshgrid followed by the function griddata3, so that the end result can go into like surf or mesh or something (which is what I REALLY want). It's still not an easy process, though, and I seem to be running into difficulties. =S –  Mike Apr 2 '12 at 2:20
    
Yes, you can use griddata3, but only if you filter the S matrix. You cannot use griddata3 while S is full 3D matrix. I'm asking you many times do you have any S values you can ignore? –  yuk Apr 2 '12 at 2:40
    
Heh, probably, yeah. I'm not sure how I would find them, though. –  Mike Apr 2 '12 at 6:18
    
Look at hist(S(:)), for example. Or hist(S(:),some_number). Do you see any certain threshold? Then you can just do idx = S(:) > some_threshold; –  yuk Apr 2 '12 at 6:23

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