Changing the image point resolution

I have an image (or matrix) which all of its array are equal to NaN and just a few points which are shown as blue are know. I want to make different resolution, as imresize, of this image (or matrix). But, the problem is that imresize does not work with NaN matrix and if I want to replace the NaN values with some other values, the final interpolation will not be value either. Is there nay solution for this? One solution maybe is to use inverse distance with a specific neighborhood and then find the value of new coarse resolution.

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as I said, it changes the accuracy, I am looking for a method to avoid me to do this. –  Sam Oct 2 '12 at 19:56
Yep you're correct, realized it as I posted it –  im so confused Oct 2 '12 at 19:56
how about seam carving? –  im so confused Oct 2 '12 at 19:58
implement your own simple version that accepts NaN values and resizing should work without touching your precious blues. If you're looking for the same effect as imresize with NaNs in your image, you'll never get those results because NaN has to be dealt with. there is no correct answer with NaNs –  im so confused Oct 2 '12 at 20:00
I need a simple method that I use it in matlab, I do not know about that!! –  Sam Oct 2 '12 at 20:01

You can use a simple nearest-neighbor:

``````img2 = kron(img, ones(2))  %# for scale factor 2
img2 = kron(img, ones(3))  %# for scale factor 3
...
``````

only drawback is you can only have integer-valued scale factors. This makes complete sense, as resizing `NaN` with interpolation is just plain impossible.

As an alternative, you can use

``````img(isnan(img)) = -1;          %# or something else more suited
img2 = imresize(img, 1.2)      %# resize your img normally

img2(img2~=1 | img~=0) = NaN;  %# make everything that's not valid NaN again
``````
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tnx for your answer, but as I said, I have some points that are equal to 0 and 1 and I cannot replace the NaN values with a another value, because the results will be changed. Also, the kron dies work for this aim. I think that I should implement an interpolation method that just consider the un-NaN values for interpolation. –  Sam Oct 3 '12 at 5:35
@Sam: Have you actually tried to do this? The values will indeed "change", but you throw those non-0 and non-1 valued pixels away and you are left with a re-sized image containing NaN and 0 and 1, nothing else. You will get some aliasing, but it's the best you can do here. Writing your own interpolations is going to be a mess, and no better than this, I guarantee. –  Rody Oldenhuis Oct 3 '12 at 6:23
when I want to try your code, it has an error, the dimension of img2 and img are not equal! –  Sam Oct 3 '12 at 6:29

I will only sketch a solution that might work:

1. Make a mask of your matrix where the values are valid
3. Fill the values back in

The first two steps are quite easy:

``````mask      = ~isnan(data);
``````

The tricky part is in the last step, which I won't implement, but only show what I'd try to do. I'd order the valid values in the unresized data (`index = find(~isnan(data))`), that way if you can recover that ordering in the larger data, you can just fill them back in. For that recovering, you might want to calculate the `x,y` coordinates of each data point in the small matrix, transform it yourself to the large matrix, find its neighbors and fill in.

edit: You might get good results when you resize the mask, resize the data with `NaN` replaced by some value that doesn't distort the values at the points and then re-apply the transformed mask to your image to put the NaNs back in place. Anyhow, this is just a shot in the dark since you don't specify how the data should be interpolated or when you consider the values valid or not.

What I think is a good starting point for some problems is to try to perform the actions manually (or e.g. using GIMP/Photoshop) and then try to implement it in code.

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tnx for your answer, as I found, in your solution these points will not be changed, yes? Because you suggested to just transfer them to the next coarser grid, while they should be changed! –  Sam Oct 3 '12 at 6:24
If you want them to change, you could calculate what they should be when filling back in. –  Egon Oct 3 '12 at 6:58
that is my exact problem that how I should calculate the new values!! –  Sam Oct 3 '12 at 16:59
No need for shouting, but perhaps you might get better answers if you pose your question a bit more clear. –  Egon Oct 4 '12 at 5:44