Connect bwlabeled components
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[EDIT: 20110623 22:06 CDT - reformat - WDR]
Hello, I need help on a very simple task...well..seemingly.
I have a series of images similarly to this: http://blogs.mathworks.com/images/steve/94/labeling_labeled_objects_03.png
except I have a tiff stack with numerous layers in series. In this image the blobs move around as one goes deeper into the tiff stack series (it is a spatial not temporal series). I am trying to do the following:
Find all unique objects per layer, connect objects from one plane to another that 'overlap'(thus indicating that both object x1 in layer a and x2 in layer b are the same object just at different spatial depths) as a line segment, generate a output with orientation in z of each line segment.
I have done the first instant. I am looking for advice on how to go about the object grouping, ie. connecting the same 'real object' in the serialized sections.
Any functions I should look at? Particle tracking functions perhaps?
Cheers,
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Accepted Answer
Sean de Wolski
on 27 Jun 2011
Using bwconncomp on a three dimensional image will group them in 3d. You'll have to call it on each individual slice to see how many objects per slice there are:
sliceObjs = zeros(size(stack,3),1);
for ii = 1:size(stack,3)
CC = bwconncomp(stack(:,:,ii));
sliceObjs(ii) = CC.NumObjects;
end
EDIT This is a script, with the engine completely generalized and ready to go. I saved you above image; cropped it and translated it for visualization error checking purposes. The translation was done using my function FEX:imtranslate
%%Data and stuff
I = imread('ans627.png'); %your image
I = I(35:276,86:381,1)==255; %keep relevant part; convert to binary
I(:,:,2) = imtranslate(I,[10 -14]); %artificially translate for testing
I(5:11,270:275,2) = true; %add an eleventh object with no friends
szI = size(I);
Ds = cell(szI(3)-1); %preallocate place to store stuff
CCold = bwconncomp(I(:,:,1)); %cc of first slice
RPold = regionprops(CCold,'centroid');
centsA = vertcat(RPold(:).Centroid); %extract centroids
for ii = 1:(szI(3)-1)
CCnew = bwconncomp(I(:,:,ii+1)); %cc of next slice
RPnew = regionprops(CCnew,'centroid');
centsB = vertcat(RPnew(:).Centroid);
dim = 2; %which dimension will control in the bsxfun expression?
if CCold.NumObjects>CCnew.NumObjects
dim = 1;
end
%Engine:
xyDiff = bsxfun(@(x,y)abs(x-y),reshape(centsA,[],1,2),reshape(centsB,1,[],2)); %Centroids distances in each dimension
[~,idx] = min(hypot(xyDiff(:,:,1),xyDiff(:,:,2)),[],dim);
if dim==2;
displacements = centsB(idx,:)-centsA;
H = quiver(centsA(:,1),centsA(:,2),displacements(:,1),displacements(:,2));
else
displacements = centsB-centsA(idx,:);
H = quiver(centsB(:,1),centsB(:,2),displacements(:,1),displacements(:,2));
end
RPold = RPnew; %get ready to move on
CCold = CCnew;
centsA = centsB;
Ds{ii} = displacements; %can store other stuff too.
end
%SCd 06/27/2011
If you now look at displacements, you'll see that the artificial translation was recovered. I didn't place a threshold on distance - just used the minimum one. This could be added easily enough. (replace objects without a match to nan to maintain order)
20 Comments
More Answers (3)
Wolfgang Schwanghart
on 24 Jun 2011
I'd start with using the function bwlabeln to label the connected components in the 3d. This, however, requires them to never overlap or touch. If this occurs, you might want to use imerode prior to bwlabeln to let each object shrink a little.
2 Comments
Sean de Wolski
on 24 Jun 2011
Personally I'd recommend using bwconncomp and if necessary labelmatrix to get the label. bwlabeln (and label matrices in general) take up a lot of memory.
Wolfgang Schwanghart
on 27 Jun 2011
Oh right. Somehow I thought bwconncomp works in 2D only, but I was wrong.
D
on 24 Jun 2011
1 Comment
Sean de Wolski
on 24 Jun 2011
Yes - in 3D.
If you want the output structure identical to bwconncomp (for storage) purposes and you have a label matrix, you can use my label2CC function.
http://www.mathworks.com/matlabcentral/fileexchange/30702-label2cc
D
on 24 Jun 2011
7 Comments
Sean de Wolski
on 27 Jun 2011
length(..) returns the size of the _largest_ dimension. Therefore, don't use it, since it's unreliable and can change!
force SIZE to output the size of the dimension you want, in this case 3, size(L,3);
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